Natural Killer T Cell Ligand Alpha-galactosylceramide Enhances Protective Immunity Induced by Malaria Vaccines

The Journal of Experimental Medicine. Mar, 2002  |  Pubmed ID: 11877484

The important role played by CD8(+) T lymphocytes in the control of parasitic and viral infections, as well as tumor development, has raised the need for the development of adjuvants capable of enhancing cell-mediated immunity. It is well established that protective immunity against liver stages of malaria parasites is primarily mediated by CD8(+) T cells in mice. Activation of natural killer T (NKT) cells by the glycolipid ligand, alpha-galactosylceramide (alpha-GalCer), causes bystander activation of NK, B, CD4(+), and CD8(+) T cells. Our study shows that coadministration of alpha-GalCer with suboptimal doses of irradiated sporozoites or recombinant viruses expressing a malaria antigen greatly enhances the level of protective anti-malaria immunity in mice. We also show that coadministration of alpha-GalCer with various different immunogens strongly enhances antigen-specific CD8(+) T cell responses, and to a lesser degree, Th1-type responses. The adjuvant effects of alpha-GalCer require CD1d molecules, Valpha14 NKT cells, and interferon gamma. As alpha-GalCer stimulates both human and murine NKT cells, these findings should contribute to the design of more effective vaccines against malaria and other intracellular pathogens, as well as tumors.

Colitis-related Public T Cells Are Selected in the Colonic Lamina Propria of IL-10-deficient Mice

Clinical Immunology (Orlando, Fla.). Mar, 2002  |  Pubmed ID: 11890710

IL-10 is an important regulatory cytokine in the mucosal immune system, as supported by the fact that mice deficient in IL-10 spontaneously develop Crohn's disease-like colitis. An aberrant, Th1-driven CD4(+) T-cell response to enteric bacteria seems to be important in the pathogenesis of this murine colitis. However, no specific bacteria or bacterial products have been identified, and whether the colitis is mediated by the activation of CD4(+) T cells that recognize specific peptide-MHC complexes is controversial. In this study, we analyzed the TCR beta chain complementarity determining region 3 length spectratype of colonic CD4(+) T cells isolated from diseased IL-10-deficient mice by using the Immunoscope technique. Screening of the diseased interleukin-10-deficient mice resulted in a restricted clonotype in TCR V beta 13 and 14 subfamilies of colonic CD4(+) T cells. In contrast, a Gaussian distribution of clonotype of individual TCR V beta subsets was observed in CD4(+) T cells from the peripheral lymphoid tissues. Although individual variability in the disease-related response was also noted in other IL-10-deficient mice maintained in La Jolla and Osaka, perhaps because of different stages of the disease, genetic background, or the housing environment, colitis-related public clones seemed to be shared in all the diseased mice tested. To address whether public clones were involved, we determined the DNA sequence of the clones. Public motifs were shared in colonic CD4(+) T cells from different background interleukin-10-deficient mice with colitis. The frequently found motifs were SXDWG and SATGNYAEQ. These motifs were not seen in the peripheral lymphoid tissues of diseased mice as well as the colon of non-diseased mice. Thus, the common motif may be related to a public gut-derived antigen, which could be important for the development of pathogenic CD4(+) T cells in this inflammatory bowel disease (IBD) model. The selection of V beta-J beta usage is perhaps stochastic in individual mice; however, the epigenetic generation of SXDWG motif by the recombination machinery and selection for this motif in the gut environment could be important for triggering IBD.

Precursors of Functional MHC Class I- or Class II-restricted CD8alphaalpha(+) T Cells Are Positively Selected in the Thymus by Agonist Self-peptides

Immunity. Mar, 2002  |  Pubmed ID: 11911821

The origin and specificity of alphabeta TCR(+) T cells that express CD8alphaalpha have been controversial issues. Here we provide direct evidence that precursors of functional CD8alphaalpha T cells are positively selected in the thymus in the presence of agonist self-peptides. Like conventional positive selection, this agonist selection process requires functional TCR alpha-CPM, whereas it is independent of CD8beta expression. Furthermore, CD8alphaalpha expression on mature, agonist-selected T cells does not imply selection by MHC class I, and CD8alphaalpha(+) T cells can be either class I or class II restricted. Our data define a distinct agonist-dependent, positive selection process in the thymus, and they suggest a function for CD8alphaalpha distinct from the conventional TCR coreceptor function of CD8alphabeta or CD4.

Regulation of Mucosal Immune Responses by Recombinant Interleukin 10 Produced by Intestinal Epithelial Cells in Mice

Gastroenterology. Jun, 2002  |  Pubmed ID: 12055591

Interleukin (IL)-10 is a cytokine with anti-inflammatory properties. The aim of this study was to explore the effect of a site-specific delivery of IL-10 on intestinal immune responses.

The V Alpha 14 NKT Cell TCR Exhibits High-affinity Binding to a Glycolipid/CD1d Complex

Journal of Immunology (Baltimore, Md. : 1950). Aug, 2002  |  Pubmed ID: 12133957

Most CD1d-dependent NKT cells in mice have a canonical V alpha 14J alpha 18 TCR rearrangement. However, relatively little is known concerning the molecular basis for their reactivity to glycolipid Ags presented by CD1d. Using glycolipid Ags, soluble forms of a V alpha 14 NKT cell-derived TCR, and mutant and wild-type CD1d molecules, we probed the TCR/CD1d interaction by surface plasmon resonance, tetramer equilibrium staining, and tetramer staining decay experiments. By these methods, several CD1d alpha-helical amino acids could be defined that do not greatly alter lipid binding, but that affect the interaction with the TCR. Binding of the V alpha 14(+) TCR to CD1d requires the agonist alpha-galactosylceramide (alpha-GalCer), as opposed to the nonantigenic beta-galactosylceramide, although both Ags bind to CD1d, indicating that the carbohydrate moiety of the CD1d-bound Ag plays a major role in the TCR interaction. The TCR has a relatively high-affinity binding to the alpha-GalCer/CD1d complex, with a particularly slow off rate. These unique properties are consistent with the coreceptor-independent action of the V alpha 14 TCR and may be related to the intense response to alpha-GalCer by NKT cells in vivo.

Prolonged IFN-gamma-producing NKT Response Induced with Alpha-galactosylceramide-loaded DCs

Nature Immunology. Sep, 2002  |  Pubmed ID: 12154358

Natural killer T (NKT) lymphocytes mediate a rapid reaction to the glycolipid drug alpha-galactosylceramide (alpha GalCer), which triggers release of large amounts of cytokines into the serum within 12 h, starting with interleukin 4 (IL-4). When alpha GalCer is administered to mice on dendritic cells (DCs) instead, the response is more prolonged (>4 days) and marked by a large expansion in IFN-gamma-producing NKT cells as well as greater resistance to metastases of the B16 melanoma. Nevertheless, DCs from mice given free alpha GalCer are able to induce strong IFN-gamma-producing NKT responses when transferred to naïve mice, but not when transferred to alpha GalCer-treated recipients. In the latter, the NKT cells are energized and can respond to glycolipid only in the presence of supplemental IL-2. Therefore, when alpha GalCer is selectively targeted to DCs, mice develop a stronger, more prolonged and effector type of NKT response, but this response can be blocked by the induction of anergy after presentation of alpha GalCer on other cells.

The Unconventional Lifestyle of NKT Cells

Nature Reviews. Immunology. Aug, 2002  |  Pubmed ID: 12154375

CD1 Tetramers: a Powerful Tool for the Analysis of Glycolipid-reactive T Cells

Journal of Immunological Methods. Oct, 2002  |  Pubmed ID: 12213347

CD1 proteins constitute a third class of antigen-presenting molecules. They bind lipids rather than peptides, and the T cells reactive to lipids presented by CD1 have been implicated in the protection against autoimmune diseases and infectious microorganisms and in the immune surveillance for tumors. Thus, the ability to identify, purify, and track the response of CD1-reactive cells is of paramount importance. Previously existing methods for identifying these T cells were not based on TCR specificity, and therefore the data obtained by these methods were in some cases difficult to interpret. The recent generation of tetramers of alpha-galactosyl ceramide (alpha-GalCer) with CD1d has already permitted significant insight into the biology of NKT cells. Tetramers constructed from other CD1 molecules also have been obtained during the previous year. Collectively, these new reagents promise to greatly expand knowledge of the functions of lipid-reactive T cells, with potential use in monitoring the response to lipid-based vaccines and other treatments and in the diagnosis of autoimmune diseases.

Homeostasis of V Alpha 14i NKT Cells

Nature Immunology. Oct, 2002  |  Pubmed ID: 12244311

CD1d-reactive natural killer T (NKT) cells with an invariant V alpha 14 rearrangement (V alpha 14i) are a distinct subset of T lymphocytes that likely have important immune-regulatory functions. Little is known regarding the factors responsible for their peripheral survival. Using alpha-galactosylceramide-containing CD1d tetramers to detect V alpha 14i NKT cells, we show here that the expansion of V alpha 14i NKT cells in lymphopenic mice was not dependent on CD1d expression and was unaffected by the presence of host NKT cells. Additionally, we found that IL-15 was important in the expansion and/or survival of V alpha 14i NKT cells, with IL-7 playing a lesser role. These results demonstrate that the homeostatic requirements for CD1d-restricted NKT cells, which are CD4(+) or CD4(-)CD8(-), resemble those of CD8(+) memory T cells. We propose that this expansion and/or survival in the periphery of V alpha 14i NKT cells is affected by competition for IL-15, and that IL-15-requiring cells-such as NK cells and CD8(+) memory cells-may define the V alpha 14i NKT cell niche.

Quantitation and Phenotypic Analysis of Natural Killer T Cells in Primary Biliary Cirrhosis Using a Human CD1d Tetramer

Gastroenterology. Oct, 2002  |  Pubmed ID: 12360465

Natural killer T (NKT) cells are a subset of lymphocytes incriminated in playing an important role in the modulation of the innate immune response and the development of autoimmunity. However, there have been only limited studies attempting to quantitate the number of NKT cells in autoimmune disease, particularly because of difficulties associated with definition of this subpopulation.

Peptide-independent Folding and CD8 Alpha Alpha Binding by the Nonclassical Class I Molecule, Thymic Leukemia Antigen

Journal of Immunology (Baltimore, Md. : 1950). Nov, 2002  |  Pubmed ID: 12421950

The nonclassical class I molecule, thymic leukemia (TL), has been shown to be expressed on intestinal epithelial cells and to interact with CD8(+) intraepithelial T lymphocytes. We generated recombinant soluble TL (T18(d)) H chains in bacteria as inclusion bodies and refolded them with beta(2)-microglobulin in the presence or absence of a random peptide library. Using a mAb, HD168, that recognizes a conformational epitope on native TL molecules, we observed that protein folds efficiently in the absence of peptide. Circular dichroism analysis demonstrated that TL molecules have structural features similar to classical class I molecules. Moreover, thermal denaturation experiments indicated that the melting temperature for peptide-free TL is similar to values reported previously for conventional class I-peptide complexes. Our results also show that CD8alphaalpha binding is not dependent on either TL-associated peptide or TL glycosylation.

Disruption of T Helper 2-immune Responses in Epstein-Barr Virus-induced Gene 3-deficient Mice

Proceedings of the National Academy of Sciences of the United States of America. Dec, 2002  |  Pubmed ID: 12482940

Epstein-Barr virus-induced gene 3 (EBI3) is a widely expressed IL-12p40-related protein that associates as a heterodimer with either IL-12p35 or an IL-12p35 homologue, p28, to create a new cytokine (IL-27). To define the function of EBI3 in vivo, we generated knockout mice in which the ebi3 gene was targeted by homologous recombination. EBI3-/- mice exhibited normal numbers of both naive and mature CD4+ and CD8+ T cells and B cells, but markedly decreased numbers of invariant natural killer T cells (iNKT) as defined by staining with an alpha-galactosylceramide (alphaGalCer)-loaded CD1d-tetramer. iNKT cells from EBI3-/- mice exhibited decreased IL-4 and, to a lesser extent, IFN-gamma production after alphaGalCer stimulation in vitro. A sustained decrease in IL-4 production was also observed in EBI3-/- mice after alphaGalCer stimulation in vivo in contrast to IFN-gamma production, which was only transiently decreased under such stimulation. Notably, EBI3-/- mice were resistant to the induction of immunopathology associated with oxazolone-induced colitis, a colitis model mediated primarily by T helper (Th) 2-type cytokine production by iNKT cells. In contrast, trinitrobenzene sulfonic acid-induced colitis, a predominantly Th1-mediated colitis model, was unaffected. Thus, EBI3 plays a critical regulatory role in the induction of Th2-type immune responses and the development of Th2-mediated tissue inflammation in vivo, which may be mediated through the control of iNKT cell function.

Human Invariant V Alpha 24-J Alpha Q TCR Supports the Development of CD1d-dependent NK1.1+ and NK1.1- T Cells in Transgenic Mice

Journal of Immunology (Baltimore, Md. : 1950). Mar, 2003  |  Pubmed ID: 12594262

A sizable fraction of T cells expressing the NK cell marker NK1.1 (NKT cells) bear a very conserved TCR, characterized by homologous invariant (inv.) TCR V alpha 24-J alpha Q and V alpha 14-J alpha 18 rearrangements in humans and mice, respectively, and are thus defined as inv. NKT cells. Because human inv. NKT cells recognize mouse CD1d in vitro, we wondered whether a human inv. V alpha 24 TCR could be selected in vivo by mouse ligands presented by CD1d, thereby supporting the development of inv. NKT cells in mice. Therefore, we generated transgenic (Tg) mice expressing the human inv. V alpha 24-J alpha Q TCR chain in all T cells. The expression of the human inv. V alpha 24 TCR in TCR C alpha(-/-) mice indeed rescues the development of inv. NKT cells, which home preferentially to the liver and respond to the CD1d-restricted ligand alpha-galactosylceramide (alpha-GalCer). However, unlike inv. NKT cells from non-Tg mice, the majority of NKT cells in V alpha 24 Tg mice display a double-negative phenotype, as well as a significant increase in TCR V beta 7 and a corresponding decrease in TCR V beta 8.2 use. Despite the forced expression of the human CD1d-restricted TCR in C alpha(-/-) mice, staining with mCD1d-alpha-GalCer tetramers reveals that the absolute numbers of peripheral CD1d-dependent T lymphocytes increase at most by 2-fold. This increase is accounted for mainly by an increased fraction of NK1.1(-) T cells that bind CD1d-alpha-GalCer tetramers. These findings indicate that human inv. V alpha 24 TCR supports the development of CD1d-dependent lymphocytes in mice, and argue for a tight homeostatic control on the total number of inv. NKT cells. Thus, human inv. V alpha 24 TCR-expressing mice are a valuable model to study different aspects of the inv. NKT cell subset.

The Crystal Structure of a TL/CD8alphaalpha Complex at 2.1 A Resolution: Implications for Modulation of T Cell Activation and Memory

Immunity. Feb, 2003  |  Pubmed ID: 12594948

TL is a nonclassical MHC class I molecule that modulates T cell activation through relatively high-affinity interaction with CD8alphaalpha. To investigate how the TL/CD8alphaalpha interaction influences TCR signaling, we characterized the structure of the TL/CD8alphaalpha complex using X-ray crystallography. Unlike antigen-presenting molecules, the TL antigen-binding groove is occluded by specific conformational changes. This feature eliminates antigen presentation, severely hampers direct TCR recognition, and prevents TL from participating in the TCR activation complex. At the same time, the TL/CD8alphaalpha interaction is strengthened through subtle structure changes in the TL alpha3 domain. Thus, TL functions to sequester and redirect CD8alphaalpha away from the TCR, modifying lck-dependent signaling.

Essential Role of NKT Cells Producing IL-4 and IL-13 in the Development of Allergen-induced Airway Hyperreactivity

Nature Medicine. May, 2003  |  Pubmed ID: 12669034

Using natural killer T (NKT) cell-deficient mice, we show here that allergen-induced airway hyperreactivity (AHR), a cardinal feature of asthma, does not develop in the absence of V(alpha)14i NKT cells. The failure of NKT cell-deficient mice to develop AHR is not due to an inability of these mice to produce type 2 T-helper (Th2) responses because NKT cell-deficient mice that are immunized subcutaneously at non-mucosal sites produce normal Th2-biased responses. The failure to develop AHR can be reversed by the adoptive transfer of tetramer-purified NKT cells producing interleukin (IL)-4 and IL-13 to Ja281(-/-) mice, which lack the invariant T-cell receptor (TCR) of NKT cells, or by the administration to Cd1d(-/-) mice of recombinant IL-13, which directly affects airway smooth muscle cells. Thus, pulmonary V(alpha)14i NKT cells crucially regulate the development of asthma and Th2-biased respiratory immunity against nominal exogenous antigens. Therapies that target V(alpha)14i NKT cells may be clinically effective in limiting the development of AHR and asthma.

Surprisingly Minor Influence of TRAV11 (Valpha14) Polymorphism on NK T-receptor MCD1/alpha-galactosylceramide Binding Kinetics

Immunogenetics. Mar, 2003  |  Pubmed ID: 12671739

Defects in natural killer T (NK T) cell function and of interleukin-4 -production in SJL and NOD mice have been linked to susceptibility to autoimmune disease. As SJL and NOD mice both carry the T-cell receptor (TCR) alpha-chain locus "c" (Tcra(c)) haplotype, found in few other strains, we have attempted to determine the influence of Tcra polymorphism on NK T-cell recognition of ligand, selection, and immune responses. The majority of NK T cells use an "invariant" TRAV11J15 (previously called AV14J18 or Valpha14 Jalpha281) alpha- chain paired with either TRBV13-2, BV29, or BV1 to recognize ligands presented by mCD1 molecules, including the glycolipid alpha-galactosylceramide (alpha-GalCer). Sequencing of TRAV11 from the mouse strains B10.A (encoding the Tcra(b) haplotype), B10.A- Tcra(c), and NOD (Tcra(c)) shows that Tcra(c) has a single TRAV11 gene (TRAV11*01) and that Tcra(b) has a single expressed gene (TRAV11*02), plus a closely related pseudogene. There is no apparent difference in alpha-chain J-region usage or in the CDR3alpha sequence at the TRAV11-J15 junction between the haplotypes in TRAV11-bearing NK T cells. Using Biacore and tetramer-binding and decay assays, we have determined that the interaction between Tcra(c) TRAV11*01 NK T TCR and the mCD1/alpha-GalCer complex is slightly weaker than that of Tcra(b) (i.e., TRAV11*02) NK T TCR. These differences are minor compared with differences between agonist and antagonist ligands in other TCR systems, suggesting that it is unlikely that TCR polymorphism explains the defect in NK T cells in the autoimmune mouse strains.

CD1d-expressing Dendritic Cells but Not Thymic Epithelial Cells Can Mediate Negative Selection of NKT Cells

The Journal of Experimental Medicine. Apr, 2003  |  Pubmed ID: 12682110

Natural killer T (NKT) cells are a unique immunoregulatory T cell population that is positively selected by CD1d-expressing thymocytes. Previous studies have shown that NKT cells exhibit autoreactivity, which raises the question of whether they are subject to negative selection. Here, we report that the addition of agonist glycolipid alpha-galactosylceramide (alpha-GalCer) to a fetal thymic organ culture (FTOC) induces a dose-dependent disappearance of NKT cells, suggesting that NKT cells are susceptible to negative selection. Overexpression of CD1d in transgenic (Tg) mice results in reduced numbers of NKT cells, and the residual NKT cells in CD1d-Tg mice exhibit both an altered Vbeta usage and a reduced sensitivity to antigen. Furthermore, bone marrow (BM) chimeras between Tg and WT mice reveal that CD1d-expressing BM-derived dendritic cells, but not thymic epithelial cells, mediate the efficient negative selection of NKT cells. Thus, our data suggest that NKT cells developmentally undergo negative selection when engaged by high-avidity antigen or abundant self-antigen.

Schistosoma Mansoni Antigens Modulate the Activity of the Innate Immune Response and Prevent Onset of Type 1 Diabetes

European Journal of Immunology. May, 2003  |  Pubmed ID: 12731071

Infection with Schistosoma mansoni (S. mansoni) or exposure to eggs from this helminth inhibits the development of type 1 diabetes in NOD mice. In this study we show that soluble extracts of S. mansoni worm or egg completely prevent onset of type 1 diabetes in these mice but only if injection is started at 4 weeks of age. T cells from diabetes-protected mice make IL-10 in recall responses to parasite antigens. These cells are furthermore impaired in their ability to transfer diabetes to NOD-SCID recipients. Bone marrow dendritic cells derived from NOD mice are found to make more IL-10 and less IL-12 following culture with S. mansoni soluble egg antigens in conjunction with lipopolysaccharides. NOD mice are deficient in NKT cells. Soluble worm and egg antigens increase the numbers of V alpha 14i NKT cells in NOD mice. These effects of schistosome antigens on the innate immune system provide a mechanism for their ability to prevent type 1 diabetes in NOD mice.

NIK-dependent RelB Activation Defines a Unique Signaling Pathway for the Development of V Alpha 14i NKT Cells

The Journal of Experimental Medicine. Jun, 2003  |  Pubmed ID: 12810685

A defect in RelB, a member of the Rel/nuclear factor (NF)-kappa B family of transcription factors, affects antigen presenting cells and the formation of lymphoid organs, but its role in T lymphocyte differentiation is not well characterized. Here, we show that RelB deficiency in mice leads to a selective decrease of NKT cells. RelB must be expressed in an irradiation-resistant host cell that can be CD1d negative, indicating that the RelB expressing cell does not contribute directly to the positive selection of CD1d-dependent NKT cells. Like RelB-deficient mice, aly/aly mice with a mutation for the NF-kappa B-inducing kinase (NIK), have reduced NKT cell numbers. An analysis of NK1.1 and CD44 expression on NKT cells in the thymus of aly/aly mice reveals a late block in development. In vitro, we show that NIK is necessary for RelB activation upon triggering of surface receptors. This link between NIK and RelB was further demonstrated in vivo by analyzing RelB+/- x aly/+ compound heterozygous mice. After stimulation with alpha-GalCer, an antigen recognized by NKT cells, these compound heterozygotes had reduced responses compared with either RelB+/- or aly/+ mice. These data illustrate the complex interplay between hemopoietic and nonhemopoietic cell types for the development of NKT cells, and they demonstrate the unique requirement of NKT cells for a signaling pathway mediated by NIK activation of RelB in a thymic stromal cell.

Intrathymic NKT Cell Development is Blocked by the Presence of Alpha-galactosylceramide

European Journal of Immunology. Jul, 2003  |  Pubmed ID: 12811841

NKT cell development takes place in the thymus, beginning when these cells branch away from CD4+CD8+ mainstream thymocytes upon expression of the Valpha14Jalpha18 T cell receptor (TCR) and recognition of the CD1d molecule. Although NKT cells express an invariant TCR alpha chain, the diverse TCR beta expression leaves open the possibility that the development of these cells is shaped by glycolipid antigen recognition in the context of CD1d. Here, we show that the presence of an agonist glycolipid ligand, alpha-galactosylceramide, while NKT cells are developing in vitro or in vivo, specifically ablates their development. In contrast, the delayed introduction of this compound in vitro or in vivo, after NKT cells have developed, does not deplete these cells. These data indicate that NKT cells pass through a developmental window where they are susceptible to TCR-mediated negative selection, and suggest that NKT cells with a potentially high level of self reactivity can be removed from the NKT cell repertoire before they exit the thymus.

Mouse V Alpha 14i Natural Killer T Cells Are Resistant to Cytokine Polarization in Vivo

Proceedings of the National Academy of Sciences of the United States of America. Jul, 2003  |  Pubmed ID: 12829795

Under different circumstances, natural killer T (NKT) cells can cause a T helper (Th) 1 or a Th2 polarization of immune responses. We show here, however, that mouse NKT cells with an invariant V alpha 14 rearrangement (V alpha 14i NKT cells) rapidly produce both IL-4 and IFN-gamma, and this pattern could not be altered by methods that polarize naive CD4+ T cells. Surprisingly, although cytokine protein was detected only after activation, resting V alpha 14i NKT cells contained IL-4 and IFN-gamma mRNAs. Despite this finding, in vivo priming of mice with the glycolipid antigen recognized by V alpha 14i NKT cells resulted in a more Th2-oriented response upon antigen re-exposure. The V alpha 14i NKT cells from primed mice retain the ability to produce IL-4 and IFN-gamma, but they are less effective at activating NK cells to produce IFN-gamma. Our data therefore indicate that V alpha 14i NKT cells have a relatively inflexible immediate cytokine response, but that changes in their ability to induce IFN-gamma secretion by NK cells may determine the extent to which they promote Th1 responses.

Cross-presentation of Disialoganglioside GD3 to Natural Killer T Cells

The Journal of Experimental Medicine. Jul, 2003  |  Pubmed ID: 12847141

GD3, a ganglioside expressed on human melanoma, can be recognized by the humoral immune system. In this paper, we demonstrate that immunizing mice with the human melanoma cell line SK-MEL-28 (GD3+ GM2- CD1-) or with syngeneic APCs loaded with GD3 can induce a GD3-reactive natural killer T (NKT) cell response. GD3-reactive NKT cells were detected among splenocytes of immunized mice at frequencies of approximately 1:2000 both by ELISPOT and GD3-loaded mouse CD1d tetramer analysis. GD3-reactive NKT cells did not react with GM2, a closely related ganglioside, and were not detectable in unimmunized mice. GD3-reactive NKT cells initially produced IL-4 and IFN-gamma followed by IL-10. They were CD1d restricted in that reactivity was abrogated when APCs were blocked with anti-CD1d monoclonal antibody before being loaded with GD3 or when APCs from CD1d knockout mice were used. Because SK-MEL-28 does not express any isoform of human CD1, GD3 must be cross-presented by murine APCs in vivo. This is the first analysis of a natural ligand for mouse NKT cells and the first definitive paper of cross-presentation to NKT cells. This could be a mechanism for NKT cell recognition of tumor gangliosides in CD1- tumors.

Cutting Edge: Invariant V Alpha 14 NKT Cells Are Required for Allergen-induced Airway Inflammation and Hyperreactivity in an Experimental Asthma Model

Journal of Immunology (Baltimore, Md. : 1950). Aug, 2003  |  Pubmed ID: 12902459

Airway hyperreactivity (AHR), eosinophilic inflammation with a Th2-type cytokine profile, and specific Th2-mediated IgE production characterize allergic asthma. In this paper, we show that OVA-immunized Jalpha18(-/-) mice, which are exclusively deficient in the invariant Valpha14(+) (iValpha14), CD1d-restricted NKT cells, exhibit impaired AHR and airway eosinophilia, decreased IL-4 and IL-5 production in bronchoalveolar lavage fluid, and reduced OVA-specific IgE compared with wild-type (WT) littermates. Adoptive transfer of WT iValpha14 NKT cells fully reconstitutes the capacity of Jalpha18(-/-) mice to develop allergic asthma. Also, specific tetramer staining shows that OVA-immunized WT mice have activated (CD69(+)) iValpha14 NKT cells. Importantly, anti-CD1d mAb treatment blocked the ability of iValpha14 T cells to amplify eosinophil recruitment to airways, and both Th2 cytokine and IgE production following OVA challenge. In conclusion, these findings clearly demonstrate that iValpha14 NKT cells are required to participate in allergen-induced Th2 airway inflammation through a CD1d-dependent mechanism.

An Anti-inflammatory Role for V Alpha 14 NK T Cells in Mycobacterium Bovis Bacillus Calmette-Guérin-infected Mice

Journal of Immunology (Baltimore, Md. : 1950). Aug, 2003  |  Pubmed ID: 12902499

The possible contribution of NKT cells to resistance to Mycobacterium tuberculosis infection remains unclear. In this paper we characterized the Valpha14 NKT cell population following infection with Mycobacterium bovis bacillus Calmette-Guérin (BCG). BCG infection determined an early expansion of Valpha14 NKT cells in liver, lungs, and spleen, which peaked on day 8 and was sustained until day 30. However, an NK1.1(+) Valpha14 NKT population preferentially producing IFN-gamma predominated at an early stage (day 8), which was substituted by an NK1.1(-) population preferentially producing IL-4 at later stages (day 30). Despite the fact that Valpha14 NKT cell-deficient mice eliminated BCG as did control mice, they had significantly higher numbers of granulomas in liver and lungs. Additionally, while control mice developed organized small granulomas, those in Valpha14 NKT-deficient mice had signs of caseation, large cellular infiltrates, and some multinucleated macrophages, suggesting that Valpha14 NKT cells may actually work as anti-inflammatory cells by limiting excessive lymphocyte influx and tissue pathology. In agreement, we found an increased spontaneous production and mRNA expression of TNF-alpha in liver and lungs of Valpha14 NKT-deficient mice, whose neutralization in vivo by anti-TNF-alpha mAbs consistently reduced the number of granulomas in liver and lungs. Together, our results support a regulatory role for Valpha14 NKT cells in the course of BCG infection through their ability to limit the extent of inflammatory response and point to an important role for this cell subset as a regulator of the balance between protective responses and immunopathology.

CD4+ CD25+ T Cells Responding to Serologically Defined Autoantigens Suppress Antitumor Immune Responses

Proceedings of the National Academy of Sciences of the United States of America. Sep, 2003  |  Pubmed ID: 12947044

A variety of tumor-derived antigens have been defined by IgG antibodies in tumor bearers' sera with serological identification of antigens by recombinant expression cloning (SEREX), a serological expression cloning method. The majority of these antigens show no structural abnormality and seem to be wild-type autoantigens. Coimmunization with DNA encoding these autoantigens and tumor-specific cytotoxic T lymphocytes epitopes heightened CD8+ T cell responses and increased resistance to tumor challenge in a CD4+ T cell-dependent manner. In contrast, immunization with these SEREX-defined autoantigens alone leads to heightened susceptibility to tumor challenge. This suppressive effect of immunization is mediated by CD4+ CD25+ T cells. In mice immunized with one of the SEREX-defined autoantigens, Dna J-like 2, the number of alpha-GalCer/CD1d tetramer+ CD3+ T cells [representing natural killer T (NKT) cells] was reduced in the pulmonary compartment, whereas no evident change in the number of other T cell subsets was observed. Experiments with Jalpha281-/- mice lacking most NKT cells indicate that NKT cells are primarily responsible for metastasis suppression and that their activity is inhibited by immunization with Dna J-like 2. We propose that SEREX identifies a pool of autoantigens that maintains and regulates immunological homeostasis via CD4+ CD25+ regulatory T cells.

Glycolipid Antigen Drives Rapid Expansion and Sustained Cytokine Production by NK T Cells

Journal of Immunology (Baltimore, Md. : 1950). Oct, 2003  |  Pubmed ID: 14530322

NKT cells are enigmatic lymphocytes that respond to glycolipid Ags presented by CD1d. Although they are key immunoregulatory cells, with a critical role in immunity to cancer, infection, and autoimmune diseases, little is known about how they respond to antigenic challenge. Current theories suggest that NKT cells die within hours of stimulation, implying that their direct impact on the immune system derives from the initial cytokine burst released before their death. Here we show that NKT cell disappearance results from TCR down-regulation rather than apoptosis, and that they expand to many times their normal number in peripheral tissues within 2-3 days of stimulation, before contracting to normal numbers over subsequent days. This expansion is associated with ongoing cytokine production, biased toward a Th1 (IFN-gamma(+) IL-4(-)) phenotype, in contrast to their initial Th0 (IFN-gamma(+)IL-4(+)) phenotype. This study provides critical new insight into how NKT cells can have such a major impact on immune responses, lasting many days beyond the initial stimulation of these cells.

Constitutive Cytokine MRNAs Mark Natural Killer (NK) and NK T Cells Poised for Rapid Effector Function

The Journal of Experimental Medicine. Oct, 2003  |  Pubmed ID: 14530376

Natural killer (NK) and NK T cells are tissue lymphocytes that secrete cytokines rapidly upon stimulation. Here, we show that these cells maintain distinct patterns of constitutive cytokine mRNAs. Unlike conventional T cells, NK T cells activate interleukin (IL)-4 and interferon (IFN)-gamma transcription during thymic development and populate the periphery with both cytokine loci previously modified by histone acetylation. Similarly, NK cells transcribe and modify the IFN-gamma gene, but not IL-4, during developmental maturation in the bone marrow. Lineage-specific patterns of cytokine transcripts predate infection and suggest evolutionary selection for invariant but distinct types of effector responses among the earliest responding lymphocytes.

The Adaptor Protein AP-3 is Required for CD1d-mediated Antigen Presentation of Glycosphingolipids and Development of Valpha14i NKT Cells

The Journal of Experimental Medicine. Oct, 2003  |  Pubmed ID: 14557411

Relatively little is known about the pathway leading to the presentation of glycolipids by CD1 molecules. Here we show that the adaptor protein complex 3 (AP-3) is required for the efficient presentation of glycolipid antigens that require internalization and processing. AP-3 interacts with mouse CD1d, and cells from mice deficient for AP-3 have increased cell surface levels of CD1d and decreased expression in late endosomes. Spleen cells from AP-3-deficient mice have a reduced ability to present glycolipids to natural killer T (NKT) cells. Furthermore, AP-3-deficient mice have a significantly reduced NKT cell population, although this is not caused by self-tolerance that might result from increased CD1d surface levels. These data suggest that the generation of the endogenous ligand that selects NKT cells may also be AP-3 dependent. However, the function of MHC class II-reactive CD4+ T lymphocytes is not altered by AP-3 deficiency. Consistent with this divergence from the class II pathway, NKT cell development and antigen presentation by CD1d are not reduced by invariant chain deficiency. These data demonstrate that the AP-3 requirement is a particular attribute of the CD1d pathway in mice and that, although MHC class II molecules and CD1d are both found in late endosomes or lysosomes, different pathways mediate their intracellular trafficking.

Activation of Natural Killer T Cells in NZB/W Mice Induces Th1-type Immune Responses Exacerbating Lupus

The Journal of Clinical Investigation. Oct, 2003  |  Pubmed ID: 14561706

In vivo treatment of mice with the natural killer T (NKT) cell ligand, alpha-galactosylceramide (alphaGalCer), ameliorates autoimmune diabetes and experimental autoimmune encephalomyelitis (EAE) by shifting pathogenic Th1-type immune responses to nonpathogenic Th2-type responses. In the current study, in vivo activation of NKT cells in adult NZB/W mice by multiple injections of alphaGalCer induced an abnormal Th1-type immune response as compared with the Th2-type response observed in nonautoimmune C57BL/6 mice. This resulted in decreased serum levels of IgE, increased levels of IgG2a and IgG2a anti-double-stranded DNA (anti-dsDNA) Ab's, and exacerbated lupus. Conversely, treatment of NZB/W mice with blocking anti-CD1d mAb augmented Th2-type responses, increased serum levels of IgE, decreased levels of IgG2a and IgG2a anti-dsDNA Ab's, and ameliorated lupus. While total CD4+ T cells markedly augmented in vitro IgM anti-dsDNA Ab secretion by splenic B cells, the non-CD1d-reactive (CD1d-alphaGalCer tetramer-negative) CD4+ T cells (accounting for 95% of all CD4+ T cells) failed to augment Ab secretion. The CD1d-reactive tetramer-positive CD4+ T cells augmented anti-dsDNA Ab secretion about tenfold. In conclusion, activation of NKT cells augments Th1-type immune responses and autoantibody secretion that contribute to lupus development in adult NZB/W mice, and anti-CD1d mAb might be useful for treating lupus.

Natural Killer T Cells: Natural or Unnatural Regulators of Autoimmunity?

Current Opinion in Immunology. Dec, 2003  |  Pubmed ID: 14630203

Natural killer T (NKT) cells are a unique lymphocyte subtype implicated in the regulation of autoimmunity, particularly diabetes and experimental allergic encephalomyelitis in animal models. In some reports, NKT-cell regulation was revealed only following vigorous activation by a synthetic glycolipid, a process that might not occur naturally. Patients with diverse autoimmune diseases have reduced NKT-cell counts and, in diabetes and multiple sclerosis, effective NKT-cell regulation correlates with the secretion of Th2 cytokines. Although current controversy surrounds the importance of NKT cells and their modes of action, they represent a potentially important clinical target.

MHC-dependent and -independent Modulation of Endogenous Ly49 Receptors on NK1.1+ T Lymphocytes Directed by T-cell Receptor Type

Immunology. Nov, 2003  |  Pubmed ID: 14632658

Natural killer (NK) T lymphocytes are thought to act as regulatory cells directing early events during immune responses. Murine NKT cells express inhibitory receptors of the Ly49 family. These receptors have a well-established and crucial role in modulating NK cell activities, but their physiological role in regulating NKT cells is not well understood, nor is the influence of major histocompatibility (MHC) ligands on endogenous Ly49 expression. We have further investigated how the expression of inhibitory NK receptors is regulated on NKT cells, and demonstrate a non-random expression of ligated Ly49 molecules on CD1d-restricted NKT cells. The nature of the T-cell receptor on the NKT cell crucially determines the profile of expressed Ly49 isoforms. Further, we show that MHC class I ligands efficiently modulate the expression levels of the inhibitory receptors, and the frequencies of cells positive for the Ly49 members. In addition, we find a several-fold increase in Ly49C/I-expressing NKT cells in adult thymus, apparently independent of MHC class I molecules. Abundant expression of Ly49 receptors on NKT cells, and the striking differences found in Ly49 isoform patterns on NKT-cell subsets differing in T-cell receptor expression, suggest that the pattern of Ly49 expression is tuned to fit the T-cell receptor and to emphasize further a role for these receptors in NKT immunity.

Cutaneous Immunization Rapidly Activates Liver Invariant Valpha14 NKT Cells Stimulating B-1 B Cells to Initiate T Cell Recruitment for Elicitation of Contact Sensitivity

The Journal of Experimental Medicine. Dec, 2003  |  Pubmed ID: 14676294

T cell recruitment to elicit contact sensitivity (CS) requires a CS-initiating process mediated by B-1 cells that produce IgM, which activates complement to promote T cell passage into the tissues. We now show that Valpha14i NKT cells induce B-1 cell activation likely by releasing IL-4 early postimmunization. The CS initiation process is absent in Jalpha18-/- and CD1d-/- NKT cell-deficient mice and is reconstituted by populations enriched for Valpha14i NKT cells. Transfers are not effective if cells are derived from IL-4-/- mice. Staining with specific tetramers directly showed that hepatic Valpha14i NKT cells increase by 30 min and nearly double by 2 h postimmunization. Transfer of immune B-1 cells also reconstitutes CS responses in NKT cell-deficient mice. The B-1 cells act downstream of the Valpha14i NKT cells to restore CS initiation. In addition, IL-4 given systemically to Jalpha18-/- or CD1d-/- NKT cell-deficient mice reconstitutes elicitation of CS. Further, splenocytes from immune Jalpha18-/- mice produce less antigen (Ag)-specific IgM antibodies compared with sensitized WT mice. Together these findings indicate that very early after skin immunization Valpha14i NKT cells are stimulated to produce IL-4, which activates B-1 cells to produce Ag-specific IgM, subsequently needed to recruit effector T cells for elicitation of CS responses.

Presenting Fats with SAPs

Nature Immunology. Feb, 2004  |  Pubmed ID: 14749781

Surface Receptors Identify Mouse NK1.1+ T Cell Subsets Distinguished by Function and T Cell Receptor Type

European Journal of Immunology. Jan, 2004  |  Pubmed ID: 14971030

Natural killer T (NKT) lymphocytes rapidly produce several cytokines, including IL-4 and IFN-gamma, upon activation, and act as regulatory cells at an early interphase of innate and adaptive immune responses. They have been implicated as important elements in diverse immune responses including the regulation of autoimmune disease, the immune response to infections, and the prevention of tumor metastasis. The broad spectrum of their activities suggested that functionally different subsets of NKT cells may exist. We demonstrate two functionally distinct splenic NKT populations identified by the expression of CD49b and CD69, respectively. Each NKT subset was represented by the amplified transgenic NKT cell population in a distinct transgenic mouse line expressing a CD1d-restricted TCR. CD49bhigh CD69- NKT cells, termed NKT1 cells by us, were high producers of IFN-gamma after stimulation, but essentially devoid of IL-4-synthesizing cells. Most NKT1 cells used diverse (non-Valpha14-canonical) TCR. The CD69+ CD49(-/low) NKT cell population, which we term NKT2, produced large quantities of IL-4 and substantial amounts of IFN-gamma upon activation and were dominated by cells using the canonical Valpha14-Jalpha18 T cell receptor. Knowledge of the unique roles of the different NKT cell subsets in specific situations will be essential for our understanding of NKT cell biology.

Expansion of Human Valpha24+ NKT Cells by Repeated Stimulation with KRN7000

Journal of Immunological Methods. Feb, 2004  |  Pubmed ID: 14980434

Changes in Valpha24+Vbeta11+ NKT cell number and function are associated with human autoimmune diseases and cancer. Restoration of this corresponding NKT cell population in mice or in vivo activation with alpha-galactosylceramide (KRN7000) can prevent or reduce tumor growth and autoimmunity. Although the therapeutic value of these natural killer T (NKT) cells in man remains to be determined, large numbers of functional antigen-specific NKT cells can be expanded in vitro. We show that Valpha24+Vbeta11+ human NKT cells are expanded by repeated stimulation with KRN7000, unfractionated donor peripheral blood mononuclear cells (PBMC), and recombinant human interleukin-2 (rhIL-2). NKT cells were expanded continuously for more than 2 months with a potential yield of >10(12) cells. The expanded NKT cells retained their CD4+ or CD4- phenotype after restimulation and were functional as shown by cytokine secretion, killing of antigen-pulsed target cells, and activation of NK cell cytotoxicity. This expansion method may be useful for proof-of-concept studies involving adoptive transfer of ex vivo-expanded NKT cells as a new therapeutic option for cancer and autoimmune diseases.

NKT Cells: What's in a Name?

Nature Reviews. Immunology. Mar, 2004  |  Pubmed ID: 15039760

CD1d1 Displayed on Cell Size Beads Identifies and Enriches an NK Cell Population Negatively Regulated by CD1d1

Journal of Immunology (Baltimore, Md. : 1950). May, 2004  |  Pubmed ID: 15100269

NK cells destroy microbe-infected cells while sparing healthy cells, and are controlled, in part, by inhibitory receptors specific for class I Ag-presenting molecules. CD1d1, a beta(2)-microglobulin-associated class I-like molecule, binds glycolipids and stimulates NKT cells. We previously demonstrated that target cell lysis by IL-2-activated mouse NK cells is inhibited by target cell expression of CD1d1, suggesting that IL-2-activated NK cells may express a CD1d1-specific inhibitory receptor. We now report that a significant subset of mouse IL-2-activated NK cells specifically binds cell size beads displaying either naturally expressed or recombinant CD1d1. In contrast, although tetramers of soluble recombinant CD1d1 loaded with alpha-galactosylceramide identify NKT cells, binding of this reagent to resting or IL-2-activated NK cells was undetectable, even with activated NK cells sorted with CD1d1 beads. Cytotoxicity by the CD1d1 bead-separated NK subset was strongly inhibited by CD1d1, compared with the NK cell subset not bound to CD1d1 beads. An Ab that blocks NKT cell recognition of CD1d1 also reverses CD1d1 inhibition of NK lysis, suggesting that TCRs of NKT cells and NK inhibitory receptor(s) may interact with a similar site on CD1d1. These results provide direct evidence for a physical interaction of NK cells with CD1d1, mediated by a functional, CD1d1-specific low-affinity inhibitory NK receptor. Display of ligands on cell size beads to maximize multivalent interaction may offer an alternative approach to examine NK cell receptor-ligand interactions, particularly those of lower expression and/or lower affinity/avidity that may go undetected using tetrameric reagents.

Systemic NKT Cell Deficiency in NOD Mice is Not Detected in Peripheral Blood: Implications for Human Studies

Immunology and Cell Biology. Jun, 2004  |  Pubmed ID: 15186254

In the diabetes-prone NOD mouse, there is a proven association between a systemic deficiency of NKT cells and the onset of type 1 diabetes. Numerous reports of similar defects within the NKT cell compartment of human type 1 diabetes patients suggested NKT cell levels might be a valuable predictor of susceptibility and could provide a target for therapeutic intervention. Two recent studies, however, found no association between type 1 diabetes and blood NKT cell levels in humans and consequently rejected a link between the onset of diabetes and NKT cell deficiency. This cast considerable doubts on the potential for NKT cell-based clinical applications and challenged the validity of the NOD mouse as a model of human type 1 diabetes. We now report that NKT cell levels in blood are a poor representation of those in other organs. Strikingly, systemic NKT cell deficiencies were identified in NOD mice with normal, or even raised, blood levels. This re-establishes the correlation between NKT cell deficiency and type 1 diabetes and raises important questions regarding the assaying of NKT cell levels in humans.

The Third Way: Progress on Pathways of Antigen Processing and Presentation by CD1

Immunology and Cell Biology. Jun, 2004  |  Pubmed ID: 15186261

CD1 proteins are a third family of antigen presenting molecules that bind bacterial and autologous lipid antigens for presentation to T cells. With the solution of the crystal structures of several complexes of CD1 molecules with lipids, a greater appreciation has been gained of the adaptability of CD1 in binding lipid antigens with diverse structural features. Biochemical studies of the interactions between the TCR and CD1-lipid complexes have revealed striking contrasts with TCR that bind to peptides presented by MHC-encoded class I and class II molecules. The sphingolipid activating proteins (SAP) have recently been found to facilitate the transfer of lipid antigens onto CD1 molecules. This helps to provide an explanation as to how the thermodynamic barrier, caused by loading hydrophobic lipid antigens in a hydrophilic environment, can be overcome. Mechanisms of CD1 endosomal trafficking are being delineated, including the means by which adaptor proteins induce the localization of some types of CD1 molecules to lysosomes, where they bind antigens. Unlike MHC class I and class II proteins, specialized molecules that function solely in chaperoning CD1 molecules, or in facilitating their antigen loading, have not been found. This suggests that the CD1 antigen presenting system, which diverged early in vertebrate evolution from MHC antigen presenting molecules, is a simpler system with a character closer to the primordial antigen presenting function.

The T Cell Antigen Receptor Expressed by Valpha14i NKT Cells Has a Unique Mode of Glycosphingolipid Antigen Recognition

Proceedings of the National Academy of Sciences of the United States of America. Aug, 2004  |  Pubmed ID: 15304644

Natural killer (NK) T cells with an invariant Valpha14 rearrangement (Valpha14i) are the largest population of lipid antigen-specific T lymphocytes identified in animals. They react to the glycolipid alpha-galactosyl ceramide (alpha-GalCer) presented by CD1d, and they may have important regulatory functions. It was previously shown that the Valpha14i T cell antigen receptor (TCR) has a high affinity for the alpha-GalCer/CD1d complex, driven by a long half-life (t(1/2)). Although this result could have reflected the unique attributes of alpha-GalCer, using several related glycolipid compounds, we show here that the threshold for full activation of Valpha14i NKT cells by these glycosphingolipids requires a relatively high-affinity TCR interaction with a long t(1/2). Furthermore, our data are consistent with the view that the mechanism of recognition of these compounds presented by CD1d to the Valpha14i NKT cell TCR is likely to fit a lock-and-key model. Overall, these findings emphasize the distinct properties of glycosphingolipid antigen recognition by Valpha14i NKT cells.

Salmonella Typhimurium Infection Halts Development of Type 1 Diabetes in NOD Mice

European Journal of Immunology. Nov, 2004  |  Pubmed ID: 15376194

Infectious disease has been proposed as an environmental modifier of autoimmunity in both human populations and the NOD mouse. We found that infection of NOD mice with attenuated, but not killed, Salmonella typhimurium can reduce the incidence of type 1 diabetes (T1D), even if infection occurs after the development of a peri-islet pancreatic infiltrate. Functional diabetogenic effector T cells are still present, as demonstrated by the initiation of diabetes in NOD-scid recipients of transferred splenocytes. High levels of IFN-gamma are secreted by splenocytes of infected mice, but there is no evidence of involvement of IL-10 in the protective effect of the infection. Finally, prolonged changes in cell subsets are observed in infected mice involving invariant Valpha14Jalpha281 NuKappaTau and dendritic cells. These data reinforce the idea that prevention of T1D in the NOD mouse cannot be reduced to the simple Th1/Th2 paradigm and that different infections may involve different protective mechanisms.

Going Both Ways: Immune Regulation Via CD1d-dependent NKT Cells

The Journal of Clinical Investigation. Nov, 2004  |  Pubmed ID: 15545985

NKT cells are a unique T lymphocyte sublineage that has been implicated in the regulation of immune responses associated with a broad range of diseases, including autoimmunity, infectious diseases, and cancer. In stark contrast to both conventional T lymphocytes and other types of Tregs, NKT cells are reactive to the nonclassical class I antigen-presenting molecule CD1d, and they recognize glycolipid antigens rather than peptides. Moreover, they can either up- or downregulate immune responses by promoting the secretion of Th1, Th2, or immune regulatory cytokines. This review will explore the diverse influences of these cells in various disease models, their ability to suppress or enhance immunity, and the potential for manipulating these cells as a novel form of immunotherapy.

The Role of Innate Immunity in Autoimmunity

The Journal of Experimental Medicine. Dec, 2004  |  Pubmed ID: 15611284

During the 2004 International Congress of Immunology in Montreal, a panel of experts gathered for an "Ideashop" discussion on the potential role of innate immunity in autoimmunity and the ways in which this might be targeted in future therapies.

ICOS Costimulates Invariant NKT Cell Activation

Biochemical and Biophysical Research Communications. Feb, 2005  |  Pubmed ID: 15629449

It has been reported that costimulatory molecules, CD80/86-CD28 and CD154-CD40, critically contribute to activation of CD1d-restricted invariant NKT (iNKT) cells. Here we have demonstrated that ICOS, a new member of the CD28 family, plays a substantial role in iNKT cell activation. iNKT cells constitutively expressed ICOS as well as CD28 independently, and ICOS expression was further up-regulated 2-3 days after alpha-galactosylceramide (alpha-GalCer) treatment. Blockade of ICOS-mediated costimulation by administration of anti-ICOS ligand (B7RP-1) mAb or by ICOS gene knockout substantially inhibited alpha-GalCer-induced IFN-gamma and IL-4 production, cytotoxic activity, and anti-metastatic effect. Moreover, blockade of both B7RP-1-ICOS and CD80/86-CD28 interactions mostly abolished the alpha-GalCer-induced immune responses. These findings indicate that iNKT cell activation is regulated by CD28 and IOCS independently.

Bacterial Glycolipids and Analogs As Antigens for CD1d-restricted NKT Cells

Proceedings of the National Academy of Sciences of the United States of America. Feb, 2005  |  Pubmed ID: 15665086

The CD1 family of proteins binds self and foreign glycolipids for presentation to CD1-restricted T cells. To identify previously uncharacterized active CD1 ligands, especially those of microbial origin, numerous glycolipids were synthesized and tested for their ability to stimulate mouse and human natural killer T (NKT) cells. They included analogs of the well known NKT cell agonist alpha-galactosyl ceramide (alpha-GalCer), bacterial glycolipids, and variations of the self-glycolipid, sulfatide. Bacterial glycolipids, alpha-galacturonosyl-ceramides from Sphingomonas wittichii, although structurally similar to alpha-GalCer, have significant differences in the sugar head group as well as the ceramide portion. The Sphingomonas glycosphingolipids (GSLs) and sulfatide variants were shown to activate human NKT cells as measured by IL-4 and IFN-gamma secretion. Moreover, CD1d-dimer staining revealed human NKT cell reactivity toward these GSLs and to the sulfatides in a fashion comparable with alpha-GalCer. Because alpha-GalCer is a marine-sponge-derived ligand, our study here shows that bacterium-derived antigens are also able to stimulate mouse and human NKT cells.

Mesenteric B Cells Centrally Inhibit CD4+ T Cell Colitis Through Interaction with Regulatory T Cell Subsets

Proceedings of the National Academy of Sciences of the United States of America. Feb, 2005  |  Pubmed ID: 15684084

Inflammatory bowel disease reflects an aberrant mucosal CD4+ T cell response to commensal enteric bacteria. In addition to regulatory T cell subsets, recent studies have revealed a protective role of B cells in murine CD4+ T cell colitis, but the relationship of their action to T cell immunoregulation is unknown. Here we report that mesenteric lymph node (MLN) B cells protect mice from colitis induced by Galphai2-/- CD4+ T cells. Protection required the transfer of both B cells and CD8alpha+ T cells; neither cell type alone was sufficient to inhibit CD4+ T cell-mediated colitis. Similar results were also observed in colitis induced by CD4+CD45RBhi T cells. Immunoregulation was associated with localization of B cells and expansion of CD4-CD8- CD3+NK1.1+ T cells in the secondary lymphoid compartment, as well as expansion of CD4+CD8alpha+ T cells in the intestinal intraepithelial compartment. MLN B cells from Galphai2-/- mice were deficient in a phenotypic subset and failed to provide cotransfer colitis protection. These findings indicate that protective action of B cells is a selective trait of MLN B cells acquired through a Galphai2-dependent developmental process and link B cells with the formation of regulatory T cells associated with mucosal immune homeostasis.

IFN-gamma-mediated Negative Feedback Regulation of NKT-cell Function by CD94/NKG2

Blood. Jul, 2005  |  Pubmed ID: 15746081

Activation of invariant natural killer T (iNKT) cells with CD1d-restricted T-cell receptor (TCR) ligands is a powerful means to modulate various immune responses. However, the iNKT-cell response is of limited duration and iNKT cells appear refractory to secondary stimulation. Here we show that the CD94/NKG2A inhibitory receptor plays a critical role in down-regulating iNKT-cell responses. Both TCR and NK-cell receptors expressed by iNKT cells were rapidly down-modulated by priming with alpha-galactosylceramide (alpha-GalCer) or its analog OCH [(2S,3S,4R)-1-O-(alpha-D-galactopyranosyl)-N-tetracosanoyl-2-amino-1,3,4-nonanetriol)]. TCR and CD28 were re-expressed more rapidly than the inhibitory NK-cell receptors CD94/NKG2A and Ly49, temporally rendering the primed iNKT cells hyperreactive to ligand restimulation. Of interest, alpha-GalCer was inferior to OCH in priming iNKT cells for subsequent restimulation because alpha-GalCer-induced interferon gamma (IFN-gamma) up-regulated Qa-1b expression and Qa-1b in turn inhibited iNKT-cell activity via its interaction with the inhibitory CD94/NKG2A receptor. Blockade of the CD94/NKG2-Qa-1b interaction markedly augmented recall and primary responses of iNKT cells. This is the first report to show the critical role for NK-cell receptors in controlling iNKT-cell responses and provides a novel strategy to augment the therapeutic effect of iNKT cells by priming with OCH or blocking of the CD94/NKG2A inhibitory pathway in clinical applications.

The Mouse CD1d Cytoplasmic Tail Mediates CD1d Trafficking and Antigen Presentation by Adaptor Protein 3-dependent and -independent Mechanisms

Journal of Immunology (Baltimore, Md. : 1950). Mar, 2005  |  Pubmed ID: 15749847

The short cytoplasmic tail of mouse CD1d (mCD1d) is required for its endosomal localization, for the presentation of some glycolipid Ags, and for the development of Valpha14i NKT cells. This tail has a four-amino acid Tyr-containing motif, Tyr-Gln-Asp-Ile (YQDI), similar to those sequences known to be important for the interaction with adaptor protein complexes (AP) that mediate the endosomal localization of many different proteins. In fact, mCD1d has been shown previously to interact with the AP-3 adaptor complex. In the present study, we mutated each amino acid in the YQDI motif to determine the importance of the entire motif sequence in influencing mCD1d trafficking, its interaction with adaptors, and its intracellular localization. The results indicate that the Y, D, and I amino acids are significant functionally because mutations at each of these positions altered the intracellular distribution of mCD1d and reduced its ability to present glycosphingolipids to NKT cells. However, the three amino acids are not all acting in the same way because they differ with regard to how they influence the intracellular distribution of CD1d, its rate of internalization, and its ability to interact with the mu subunit of AP-3. Our results emphasize that multiple steps, including interactions with the adaptors AP-2 and AP-3, are required for normal trafficking of mCD1d and that these different steps are mediated by only a few cytoplasmic amino acids.

Molecular Basis for the High Affinity Interaction Between the Thymic Leukemia Antigen and the CD8alphaalpha Molecule

Journal of Immunology (Baltimore, Md. : 1950). Mar, 2005  |  Pubmed ID: 15749886

The mouse thymic leukemia (TL) Ag is a nonclassical MHC class I molecule that binds with higher affinity to CD8alphaalpha than CD8alphabeta. The interaction of CD8alphaalpha with TL is important for lymphocyte regulation in the intestine. Therefore, we studied the molecular basis for TL Ag binding to CD8alphaalpha. The stronger affinity of the TL Ag for CD8alphaalpha is largely mediated by three amino acids on exposed loops of the conserved alpha3 domain. Mutant classical class I molecules substituted with TL Ag amino acids at these positions mimic the ability to interact with CD8alphaalpha and modulate lymphocyte function. These data indicate that small changes in the alpha3 domain of class I molecules potentially can have profound physiologic consequences.

Toward an Understanding of NKT Cell Biology: Progress and Paradoxes

Annual Review of Immunology. 2005  |  Pubmed ID: 15771592

Natural killer T (NKT) cells constitute a conserved T cell sublineage with unique properties, including reactivity for a synthetic glycolipid presented by CD1d, expression of an invariant T cell antigen receptor (TCR) alpha chain, and unusual requirements for thymic selection. They rapidly produce many cytokines after stimulation and thus influence diverse immune responses and pathogenic processes. Because of intensive research effort, we have learned much about factors promoting the development and survival of NKT cells, regulation of their cytokine production, and the means by which they influence dendritic cells and other cell types. Despite this progress, knowledge of the natural antigen(s) they recognize and their physiologic role remain incomplete. The activation of NKT cells paradoxically can lead either to suppression or stimulation of immune responses, and we cannot predict which will occur. Despite this uncertainty, many investigators are hopeful that immune therapies can be developed based on NKT cell stimulation.

Cutting Edge: IFN-gamma Signaling to Macrophages is Required for Optimal Valpha14i NK T/NK Cell Cross-talk

Journal of Immunology (Baltimore, Md. : 1950). Apr, 2005  |  Pubmed ID: 15778340

Activated NK T cells are known to rapidly stimulate NK cells and, subsequently, CD8(+) T cells and B cells. In this report, we first demonstrate that the downstream effects induced by alpha-galactosylceramide activated NK T cells on NK cells are mainly dependent on IFN-gamma. We found that NK T cell activation of NK cells requires a functional IFN-gamma signaling in macrophages and dendritic cells but not in B cells, NK cells, or NK T cells. NK T cell activation is dendritic cell-dependent whereas NK T cell activation of NK cells is indirect and in part mediated by macrophages. Interestingly, in this context, macrophage participation in the CD1d Ag presentation of alpha-galactosylceramide to NK T cells is not necessary. These data indicate that NK T cell-dependent activation of macrophages is required for optimal NK T cell-induced stimulation of NK cells.

Recognition of Bacterial Glycosphingolipids by Natural Killer T Cells

Nature. Mar, 2005  |  Pubmed ID: 15791257

Natural killer T (NKT) cells constitute a highly conserved T lymphocyte subpopulation that has the potential to regulate many types of immune responses through the rapid secretion of cytokines. NKT cells recognize glycolipids presented by CD1d, a class I-like antigen-presenting molecule. They have an invariant T-cell antigen receptor (TCR) alpha-chain, but whether this invariant TCR recognizes microbial antigens is still controversial. Here we show that most mouse and human NKT cells recognize glycosphingolipids from Sphingomonas, Gram-negative bacteria that do not contain lipopolysaccharide. NKT cells are activated in vivo after exposure to these bacterial antigens or bacteria, and mice that lack NKT cells have a marked defect in the clearance of Sphingomonas from the liver. These data suggest that NKT cells are T lymphocytes that provide an innate-type immune response to certain microorganisms through recognition by their antigen receptor, and that they might be useful in providing protection from bacteria that cannot be detected by pattern recognition receptors such as Toll-like receptor 4.

Intravascular Immune Surveillance by CXCR6+ NKT Cells Patrolling Liver Sinusoids

PLoS Biology. Apr, 2005  |  Pubmed ID: 15799695

We examined the in vivo behavior of liver natural killer T cells (NKT cells) by intravital fluorescence microscopic imaging of mice in which a green fluorescent protein cDNA was used to replace the gene encoding the chemokine receptor CXCR6. NKT cells, which account for most CXCR6(+) cells in liver, were found to crawl within hepatic sinusoids at 10-20 microm/min and to stop upon T cell antigen receptor activation. CXCR6-deficient mice exhibited a selective and severe reduction of CD1d-reactive NKT cells in the liver and decreased susceptibility to T-cell-dependent hepatitis. CXCL16, the cell surface ligand for CXCR6, is expressed on sinusoidal endothelial cells, and CXCR6 deficiency resulted in reduced survival, but not in altered speed or pattern of patrolling of NKT cells. Thus, NKT cells patrol liver sinusoids to provide intravascular immune surveillance, and CXCR6 contributes to liver-based immune responses by regulating their abundance.

CD1 and MHC II Find Different Means to the Same End

Trends in Immunology. May, 2005  |  Pubmed ID: 15866242

CD1 molecules are a third family of antigen-presenting molecules and are the only one specialized to present lipid-containing antigens. Some CD1 molecules traffic to the same intracellular compartments as MHC II molecules. Moreover, MHC II and the class II-associated invariant chain influence CD1d trafficking. Despite this intersection between the MHC II and CD1 pathways, CD1 proteins use a mechanism entirely different from MHC II to traffic to late endosomes to acquire antigens. Recent experimental evidence has illuminated these unique aspects of the CD1 antigen-presentation pathway.

A Murine Model of NKT Cell-mediated Liver Injury Induced by Alpha-galactosylceramide/d-galactosamine

Virchows Archiv : an International Journal of Pathology. Jun, 2005  |  Pubmed ID: 15906084

Natural killer-T (NKT) cells are rich in the liver. However, their involvement in liver injury is not fully understood. We developed here a new murine model of NKT-cell-activation-associated liver injury, and investigated a role of tumor necrosis factor alpha (TNF-alpha) and Fas in pathogenesis. We injected intraperitoneally alpha-galactosylceramide (alpha-GalCer), an NKT-cell stimulant, into D-galactosamine (GalN)-sensitized mice. Survival rate, pathological changes of the liver, and plasma concentrations of cytokines were studied. Alpha-GalCer/GalN administration gave a lethal effect within 7 h, making pathological changes such as massive parenchymal hemorrhage, hepatocyte apoptosis, sinusoidal endothelial cell injury, and close apposition of lymphocytes to apoptotic hepatocytes. Anti-NK1.1 mAb-pretreated mice and Valpha14NKT knock out (KO) mice did not develop liver injury. Tumor necrosis factor-alpha (TNF-alpha) and interferon-gamma (IFN-gamma) were elevated at 4 h in the plasma. These cytokines were produced by hepatic lymphocytes as demonstrated by in vitro stimulation with alpha-GalCer. The lethal effect was suppressed in TNF-alpha KO mice, TNF receptor-1 KO mice, and lpr/lpr (Fas deficient) mice, whereas it was not in IFN-gamma KO mice. These results indicate that the present liver injury is characterized by parenchymal hemorrhage and hepatocyte apoptosis, and mediated by TNF-alpha secretion and direct cytotoxicity of alpha-GalCer-activated NKT cells.

Regulation of Immunity by Self-reactive T Cells

Nature. Jun, 2005  |  Pubmed ID: 15931212

A basic principle of immunology is that lymphocytes respond to foreign antigens but tolerate self tissues. For developing T cells, the ability to distinguish self from non-self is acquired in the thymus, where the majority of self-reactive cells are eliminated. Recently, however, it has become apparent that some self-reactive T cells avoid being destroyed and instead differentiate into specialized regulatory cells. This appears to be beneficial. Subpopulations of self-reactive T cells have a strong influence on self tolerance and may represent targets for therapeutic intervention to control a variety of autoimmune diseases, tumour growth and infection.

Mucosal T Lymphocytes--peacekeepers and Warriors

Springer Seminars in Immunopathology. Sep, 2005  |  Pubmed ID: 15931528

Normal immune homeostasis of the intestine requires peaceful coexistence with commensal flora, combined with host defense against pathogens. Perhaps as a result of this unique dilemma, distinct populations of regulatory and effector T lymphocytes are found in the lamina propria and epithelium of the intestine. Here we summarize the properties and functions of these unusual T cells, and describe the molecular and cellular interactions that lead to their development and function. Some mucosal T cells, sometimes called type a, are conventional activated/memory T cells that have received instructions to migrate to the intestine during priming by dendritic cells in the mesenteric lymph node and elsewhere. Others, however, particularly subsets residing permanently in the epithelium, are intestine-specific T cell subpopulations generated by an atypical differentiation pathway.

Cutting Edge: CD4+CD25+ Regulatory T Cells Impaired for Intestinal Homing Can Prevent Colitis

Journal of Immunology (Baltimore, Md. : 1950). Jun, 2005  |  Pubmed ID: 15944246

Transfer of CD4(+)CD45RB(high) T cells into RAG(-/-) mice causes colitis, which can be prevented by CD4(+)CD25(+) regulatory T cells (Treg). Colitis induction by CD4(+)CD45RB(high) T cells requires beta(7) integrin-dependent intestinal localization, but the importance of beta(7) integrins for Treg function is unknown. In this study, we show that beta(7)(-/-) Treg were effective in preventing colitis. Treg expanded in vivo to the same extent as CD4(+)CD45RB(high) T cells after transfer and they did not inhibit CD4(+)CD45RB(high) T cell expansion in lymphoid tissues, although they prevented the accumulation of Th1 effector cells in the intestine. beta(7)(-/-) Treg were significantly reduced in the large intestine, however, compared with wild-type Treg, and regulatory activity could not be recovered from the intestine of recipients of beta(7)(-/-) Treg. These data demonstrate that Treg can prevent colitis by inhibiting the accumulation of tissue-seeking effector cells and that Treg accumulation in the intestine is dispensable for colitis suppression.

Lack of Chemokine Receptor CCR5 Promotes Murine Fulminant Liver Failure by Preventing the Apoptosis of Activated CD1d-restricted NKT Cells

Journal of Immunology (Baltimore, Md. : 1950). Jun, 2005  |  Pubmed ID: 15944310

Fulminant liver failure (FLF) consists of a cascade of events beginning with a presumed uncontrolled systemic activation of the immune system. The etiology of FLF remains undefined. In this study, we demonstrate that CCR5 deficiency promotes the development of acute FLF in mice following Con A administration by preventing activated hepatic CD1d-restricted NKT cells (but not conventional T cells) from dying from activation-induced apoptosis. The resistance of CCR5-deficient NKT cells from activation-induced apoptosis following Con A administration is not due to a defective Fas-driven death pathway. Moreover, FLF in CCR5-deficient mice also correlated with hepatic CCR5-deficient NKT cells, producing more IL-4, but not IFN-gamma, relative to wild-type NKT cells. Furthermore, FLF in these mice was abolished by IL-4 mAb or NK1.1 mAb treatment. We propose that CCR5 deficiency may predispose individuals to the development of FLF by preventing hepatic NKT cell apoptosis and by regulating NKT cell function, establishing a novel role for CCR5 in the development of this catastrophic liver disease that is independent of leukocyte recruitment.

Infection, Autoimmunity, and Glycolipids: T Cells Detect Microbes Through Self-recognition

Immunity. Jun, 2005  |  Pubmed ID: 15963780

De Libero et al. (2005) demonstrate in this issue of Immunity that bacterial infection leads to increased synthesis of autologous glycolipids that are recognized by CD1-restricted human T cells, indicating that recognition of inducible self-glycolipids could be a mechanism for microbial detection. This mechanism also may provide a connection between infection and autoimmunity.

Crystal Structure of Mouse CD1d Bound to the Self Ligand Phosphatidylcholine: a Molecular Basis for NKT Cell Activation

Journal of Immunology (Baltimore, Md. : 1950). Jul, 2005  |  Pubmed ID: 16002697

NKT cells are immunoregulatory lymphocytes whose activation is triggered by the recognition of lipid Ags in the context of the CD1d molecules by the TCR. In this study we present the crystal structure to 2.8 A of mouse CD1d bound to phosphatidylcholine. The interactions between the ligand acyl chains and the CD1d molecule define the structural and chemical requirements for the binding of lipid Ags to CD1d. The orientation of the polar headgroup toward the C terminus of the alpha1 helix provides a rationale for the structural basis for the observed Valpha chain bias in invariant NKT cells. The contribution of the ligand to the protein surface suggests a likely mode of recognition of lipid Ags by the NKT cell TCR.

Microsomal Triglyceride Transfer Protein Lipidation and Control of CD1d on Antigen-presenting Cells

The Journal of Experimental Medicine. Aug, 2005  |  Pubmed ID: 16087713

Microsomal triglyceride transfer protein (MTP), an endoplasmic reticulum (ER) chaperone that loads lipids onto apolipoprotein B, also regulates CD1d presentation of glycolipid antigens in the liver and intestine. We show MTP RNA and protein in antigen-presenting cells (APCs) by reverse transcription-polymerase chain reaction and by immunoblotting of mouse liver mononuclear cells and mouse and human B cell lines. Functional MTP, demonstrated by specific triglyceride transfer activity, is present in both mouse splenocytes and a CD1d-positive mouse NKT hybridoma. In a novel in vitro transfer assay, purified MTP directly transfers phospholipids, but not triglycerides, to recombinant CD1d. Chemical inhibition of MTP lipid transfer does not affect major histocompatibility complex class II presentation of ovalbumin, but considerably reduces CD1d-mediated presentation of alpha-galactosylceramide (alpha-galcer) and endogenous antigens in mouse splenic and bone marrow-derived dendritic cells (DCs), as well as in human APC lines and monocyte-derived DCs. Silencing MTP expression in the human monocyte line U937 affects CD1d function, as shown by diminished presentation of alpha-galcer. We propose that MTP acts upstream of the saposins and functions as an ER chaperone by loading endogenous lipids onto nascent CD1d. Furthermore, our studies suggest that a small molecule inhibitor could be used to modulate the activity of NKT cells.

Phenotypical and Functional Alterations During the Expansion Phase of Invariant Valpha14 Natural Killer T (Valpha14i NKT) Cells in Mice Primed with Alpha-galactosylceramide

Immunology. Sep, 2005  |  Pubmed ID: 16108815

Invariant Valpha14 natural killer T (Valpha14i NKT) cells are a unique immunoregulatory T-cell population that is restricted by CD1d. The glycolipid alpha-galactosylceramide (alpha-GalCer) is presented by CD1d and causes robust Valpha14i NKT-cell activation. Three days after injection of alpha-GalCer, Valpha14i NKT cells vigorously increase in number and then gradually decrease to normal levels. In the present study, we found that the re-administration of alpha-GalCer into mice primed 3 days earlier causes a marked increase in serum interleukin-4 and interferon-gamma. Intracellular staining revealed that the only expanded Valpha14i NKT cells are responsible for the enhanced cytokine production. The enhanced cytokine production was correlated with an increased number of Valpha14i NKT cells after priming. Additionally, primed Valpha14i NKT cells produced larger amounts of cytokine as compared with naive Valpha14i NKT cells when cultured with alpha-GalCer-pulsed dendritic cells. Thus, we considered that a subset of expanded Valpha14i NKT cells acquired a strong ability to produce cytokines. In contrast to mice primed 3 days earlier, cytokine production is markedly diminished in mice primed 7 days earlier. The expanded Valpha14i NKT cells altered the surface phenotype (NK1.1- CD69-) and contained intracellular interferon-gamma. Additionally, we found that primed Valpha14i NKT cells did not disappear or down-regulate surface TCR expression when re-injected with alpha-GalCer as compared with naive Valpha14i NKT cells. These results demonstrate that the function and surface phenotype of Valpha14i NKT cells is dramatically altered after alpha-GalCer priming.

Activation or Anergy: NKT Cells Are Stunned by Alpha-galactosylceramide

The Journal of Clinical Investigation. Sep, 2005  |  Pubmed ID: 16138189

Invariant natural killer T (iNKT) cells are T lymphocytes that behave similarly to cells of the innate immune system. The glycolipid alpha-galactosylceramide (alpha-GalCer) is a potent and specific activator of mouse and human iNKT cells and has been used in cancer clinical trials to drive NKT cell-mediated immune responses. However, little is known about the dynamics of the iNKT cell response to alpha-GalCer in vivo. In this issue of the JCI, Parekh and colleagues demonstrate that administration of alpha-GalCer causes iNKT cells to become unresponsive, for at least 1 month, in mice. This leads us to ask, should sequential administration of alpha-GalCer still be used to activate iNKT cells given the anergic state it has been shown here to induce? This intriguing article raises the issue of the avoidance of anergy induction in the design of treatment regimens that use alpha-GalCer as a specific activator of iNKT cells.

Carboxylated Glycans Mediate Colitis Through Activation of NF-kappa B

Journal of Immunology (Baltimore, Md. : 1950). Oct, 2005  |  Pubmed ID: 16210648

The role of carbohydrate modifications of glycoproteins in leukocyte trafficking is well established, but less is known concerning how glycans influence pathogenesis of inflammation. We previously identified a carboxylate modification of N-linked glycans that is recognized by S100A8, S100A9, and S100A12. The glycans are expressed on macrophages and dendritic cells of normal colonic lamina propria, and in inflammatory infiltrates in colon tissues from Crohn's disease patients. We assessed the contribution of these glycans to the development of colitis induced by CD4(+)CD45RB(high) T cell transfer to Rag1(-/-) mice. Administration of an anti-carboxylate glycan Ab markedly reduced clinical and histological disease in preventive and early therapeutic protocols. Ab treatment reduced accumulation of CD4(+) T cells in colon. This was accompanied by reduction in inflammatory cells, reduced expression of proinflammatory cytokines and of S100A8, S100A9, and receptor for advanced glycation end products. In vitro, the Ab inhibited expression of LPS-elicited cytokines and induced apoptosis of activated macrophages. It specifically blocked activation of NF-kappaB p65 in lamina propria cells of colitic mice and in activated macrophages. These results indicate that carboxylate-glycan-dependent pathways contribute to the early onset of colitis.

Synthesis and Evaluation of Sphinganine Analogues of KRN7000 and OCH

The Journal of Organic Chemistry. Dec, 2005  |  Pubmed ID: 16323834

[structures: see text] The phytosphingosine-containing alpha-galactosylceramides (alpha-GalCers), KRN7000 and OCH, have been shown to activate NKT cells via interaction with CD1d, a member of the CD1 family of antigen presenting proteins. Evidence from KRN7000 stimulation of NKT cells suggests that alpha-GalCers may have applications in the treatment or prevention of a range of viral, bacterial, and autoimmune conditions. Moreover, OCH, a truncated analogue of KRN7000, appears to induce a T(H)2 bias, which could have implications for the treatment of autoimmune and inflammatory conditions. We have prepared the direct sphinganine-containing analogues of KRN7000 and OCH, 1 and 2, and found them to be comparable in activity to the parent compounds in inducing the release of IL-2, IL-4, and IFNgamma. In addition, compound 2 leads to a cytokine bias similar to that seen with OCH. This is significant because sphinganines are more easily accessed than phytosphingosines, which should facilitate SAR studies.

V Alpha14 I NKT Cells Are Innate Lymphocytes That Participate in the Immune Response to Diverse Microbes

Journal of Clinical Immunology. Nov, 2005  |  Pubmed ID: 16380816

Natural Killer T (NKT) cells constitute a conserved T lymphocyte sublineage that has been implicated in the regulation of various immune responses, including the responses to viruses, bacteria, and parasites. NKT cells recognize self and foreign glycolipids presented by CD1d, a non-classical antigen-presenting molecule, and they rapidly produce various cytokines. Many studies have shown that NKT cells have protective roles following microbial infection through the amplification of innate and adaptive immunity, although NKT cells have detrimental roles in some cases. Recent studies have shed light on the natural antigens recognized by NKT cells and the mechanisms whereby they contribute to host defense, and they suggest that these unique T cells have evolved to jump start the immune response to microbes.

Glycolipid Activation of Invariant T Cell Receptor+ NK T Cells is Sufficient to Induce Airway Hyperreactivity Independent of Conventional CD4+ T Cells

Proceedings of the National Academy of Sciences of the United States of America. Feb, 2006  |  Pubmed ID: 16478801

Asthma is an inflammatory lung disease, in which conventional CD4+ T cells producing IL-4/IL-13 appear to play an obligatory pathogenic role. Here we show, in a mouse model of asthma, that activation of pulmonary IL-4/IL-13 producing invariant TCR+ CD1d-restricted natural killer T (NKT) cells is sufficient for the development of airway hyperreactivity (AHR), a cardinal feature of asthma, in the absence of conventional CD4+ T cells and adaptive immunity. Respiratory administration of glycolipid antigens that specifically activate NKT cells (alpha-GalactosylCeramide and a Sphingomonas bacterial glycolipid) rapidly induced AHR and inflammation typically associated with protein allergen administration. Naïve MHC class II-deficient mice, which lack conventional CD4+ T but have NKT cells, showed exaggerated baseline AHR and, when challenged with alpha-GalactosylCeramide, demonstrated even greater AHR. These studies demonstrate an expanded role for NKT cells, in which NKT cells not only produce cytokines that influence adaptive immunity but also function as critical effector cells that can induce AHR. These results suggest that NKT cells responding to glycolipid antigens, as well as conventional CD4+ T cells responding to peptide antigens, may be synergistic in the induction of AHR, although in some cases, each may independently induce AHR.

Immediate Antigen-specific Effector Functions by TCR-transgenic CD8+ NKT Cells

European Journal of Immunology. Mar, 2006  |  Pubmed ID: 16506291

Only recently have natural antigens for CD1d-dependent, invariant Valpha14+ natural killer T (iNKT) cells been identified. Similar data for CD1d-independent and CD8+ NKT cell populations are still missing. Here, we show that the MHC class I-restricted CD8+ TCR-transgenic mouse lines OT-I, P14 and H-Y contain a significant proportion of transgenic CD8+ NK1.1+ T cells. In liver, most of NK1.1+ T cells express CD8alphaalpha homodimers. Transgenic NKT cells did not bind invariant Valpha14-to-Jalpha18 TCR rearrangement (Valpha14i)-specific CD1d/alpha-galactosylceramide tetramers and the frequency of iNKT cells was severely reduced. The activated cell surface phenotype and the distribution of transgenic NKT cells in vivo were similar to that reported for iNKT cells. The OT-I and P14 CD8+ NKT cells recognized their cognate antigen in the context of H2-Kb and produced cytokines shortly after TCR stimulation. Importantly, transgenic NKT cells exerted immediate antigen-specific cytotoxicity in vitro and in vivo. Our results demonstrate the presence of transgenic CD8+ NKT cells in MHC class I-restricted TCR-transgenic animals, which are endowed with rapid antigen-specific effector functions. These data imply that experiments studying naive T cell function in TCR-transgenic animals should be interpreted with caution, and that such animals could be utilized for studying CD8+ NKT cell function in an antigen-specific manner.

Design of Natural Killer T Cell Activators: Structure and Function of a Microbial Glycosphingolipid Bound to Mouse CD1d

Proceedings of the National Academy of Sciences of the United States of America. Mar, 2006  |  Pubmed ID: 16537470

Natural killer T (NKT) cells provide an innate-type immune response upon T cell receptor interaction with CD1d-presented antigens. We demonstrate through equilibrium tetramer binding and antigen presentation assays with Valpha14i-positive NKT cell hybridomas that the Sphingomonas glycolipid alpha-galacturonosyl ceramide (GalA-GSL) is a NKT cell agonist that is significantly weaker than alpha-galactosylceramide (alpha-GalCer), the most potent known NKT agonist. For GalA-GSL, a shorter fatty acyl chain, an absence of the 4-OH on the sphingosine tail and a 6'-COOH group on the galactose moiety account for its observed antigenic potency. We further determined the crystal structure of mCD1d in complex with GalA-GSL at 1.8-A resolution. The overall binding mode of GalA-GSL to mCD1d is similar to that of the short-chain alpha-GalCer ligand PBS-25, but its sphinganine chain is more deeply inserted into the F' pocket due to alternate hydrogen-bonding interactions between the sphinganine 3-OH with Asp-80. Subsequently, a slight lateral shift (>1 A) of the galacturonosyl head group is noted at the CD1 surface compared with the galactose of alpha-GalCer. Because the relatively short C(14) fatty acid of GalA-GSL does not fully occupy the A' pocket, a spacer lipid is found that stabilizes this pocket. The lipid spacer was identified by GC/MS as a mixture of saturated and monounsaturated palmitic acid (C(16)). Comparison of available crystal structures of alpha-anomeric glycosphingolipids now sheds light on the structural basis of their differential antigenic potency and has led to the design and synthesis of NKT cell agonists with enhanced cell-based stimulatory activities compared with alpha-GalCer.

CD4+ Invariant T-cell-receptor+ Natural Killer T Cells in Bronchial Asthma

The New England Journal of Medicine. Mar, 2006  |  Pubmed ID: 16540612

Bronchial asthma is associated with an inflammatory process that is characterized by the presence in the airways of large numbers of CD4+ T cells producing interleukin-4 and interleukin-13. However, the CD4 antigen is expressed not only by class II major histocompatibility complex (MHC)-restricted CD4+ T cells, but also by a newly identified subgroup of T cells, CD1d-restricted natural killer T cells. These cells express a conserved (invariant) T-cell receptor and have a potent immunoregulatory function. Because mouse models of allergic asthma indicate that natural killer T cells are required for the development of allergen-induced airway hyperreactivity, we hypothesized that natural killer T cells play an important role in human asthma.

Elevated Serum Anti-I2 and Anti-OmpW Antibody Levels in Children with IBD

Inflammatory Bowel Diseases. May, 2006  |  Pubmed ID: 16670528

Bacteria are implicated as important factors in the pathogenesis of inflammatory bowel disease (IBD). The aim of this study was to seek evidence of possible bacterial targets of the immune response related to IBD in children.

A Unique Lymphotoxin {alpha}beta-dependent Pathway Regulates Thymic Emigration of V{alpha}14 Invariant Natural Killer T Cells

Proceedings of the National Academy of Sciences of the United States of America. Jun, 2006  |  Pubmed ID: 16751279

Natural killer (NK) T cells using an invariant Valpha14 (Valpha14i) T cell receptor rearrangement form a distinct immunoregulatory T cell lineage. Several studies indicated that a NK1.1(-) Valpha14i NKT precursor cell differentiates and expands within the thymus before export to the peripheral tissues occurs. However, little is known about the signals that cause the emigration of Valpha14i NKT cells from the thymus to the periphery. Here we show that signaling of lymphotoxin (LT) alphabeta through the LTbeta receptor (LTbetaR) is indispensable for regulating peripheral but not thymic Valpha14i NKT cell numbers. Homing to and homeostatic proliferation of thymic Valpha14i NKT cells in peripheral organs, however, was not dependent on LTbetaR. Instead, our data indicate that a LTbetaR-expressing thymic stromal cell regulates the thymic emigration of Valpha14i NKT cells but not conventional T cell receptor alphabeta cells.

The Complementarity Determining Region 2 of BV8S2 (V Beta 8.2) Contributes to Antigen Recognition by Rat Invariant NKT Cell TCR

Journal of Immunology (Baltimore, Md. : 1950). Jun, 2006  |  Pubmed ID: 16751390

Invariant NKT cells (iNKT cells) are characterized by a semi-invariant TCR comprising an invariant alpha-chain paired with beta-chains with limited BV gene usage which are specific for complexes of CD1d and glycolipid Ags like alpha-galactosylceramide (alpha-GalCer). iNKT cells can be visualized with alpha-GalCer-loaded CD1d tetramers, and the binding of mouse CD1d tetramers to mouse as well as to human iNKT cells suggests a high degree of conservation in recognition of glycolipid Ags between species. Surprisingly, mouse CD1d tetramers failed to stain a discrete cell population among F344/Crl rat liver lymphocytes, although comprised iNKT cells are indicated by IL-4 and IFN-gamma secretion after alpha-GalCer stimulation. The arising hypothesis that rat iNKT TCR recognizes alpha-GalCer only if presented by syngeneic CD1d was then tested with the help of newly generated rat and mouse iNKT TCR-transduced cell lines. Cells expressing mouse iNKT TCR reacted to alpha-GalCer presented by rat or mouse CD1d and efficiently bound alpha-GalCer-loaded mouse CD1d tetramers. In contrast, cells expressing rat iNKT TCR responded only to alpha-GalCer presented by syngeneic CD1d and bound mouse CD1d tetramers only poorly or not at all. Finally, CD1d-dependent alpha-GalCer reactivity and binding of mouse CD1d tetramers was tested for cells expressing iNKT TCR comprising either rat or mouse AV14 (Valpha14) alpha-chains and wild-type or mutated BV8S2 (Vbeta8.2) beta-chains. The results confirmed the need of syngeneic CD1d as restriction element for rat iNKT TCR and identified the CDR2 of BV8S2 as an essential site for ligand recognition by iNKT TCR.

Anti-mitochondrial Antibodies and Primary Biliary Cirrhosis in TGF-beta Receptor II Dominant-negative Mice

Journal of Immunology (Baltimore, Md. : 1950). Aug, 2006  |  Pubmed ID: 16849474

Primary biliary cirrhosis (PBC) is an autoimmune disease of the liver, characterized by lymphocytic infiltrates in portal tracts, selective destruction of biliary epithelial cells, and anti-mitochondrial Abs (AMAs). The elucidation of early events in the induction of tissue inflammation and autoimmunity in PBC has been hampered by the cryptic onset of the disease, the practical limitations in accessing the target tissue, and the lack of a suitable animal model. We demonstrate in this study that a mouse transgenic for directed expression of a dominant-negative form of TGF-beta receptor type II (dnTGFbetaRII), under the direction of the CD4 promoter, mimics several key phenotypic features of human PBC, including spontaneous production of AMAs directed to the same mitochondrial autoantigens, namely PDC-E2, BCOADC-E2, and OGDC-E2. The murine AMAs also inhibit PDC-E2 activity. Moreover, there is lymphocytic liver infiltration with periportal inflammation analogous to the histological profile in human PBC. Additionally, the serum cytokine profile of affected mice mimics data in human PBC. The concomitant presence of these immunopathological features in the transgenic mice suggests that the TGF-betaRII pathway is implicated in the pathogenesis of PBC. Finally, these data point away from initiation of autoimmunity by mechanisms such as molecular mimicry and more toward activation of an intrinsically self-reactive T cell repertoire in which necessary regulatory T cell influences are lacking.

Natural Killer T Cells Recognize Diacylglycerol Antigens from Pathogenic Bacteria

Nature Immunology. Sep, 2006  |  Pubmed ID: 16921381

Natural killer T (NKT) cells recognize glycosphingolipids presented by CD1d molecules and have been linked to defense against microbial infections. Previously defined foreign glycosphingolipids recognized by NKT cells are uniquely found in nonpathogenic sphingomonas bacteria. Here we show that mouse and human NKT cells also recognized glycolipids, specifically a diacylglycerol, from Borrelia burgdorferi, which causes Lyme disease. The B. burgdorferi-derived, glycolipid-induced NKT cell proliferation and cytokine production and the antigenic potency of this glycolipid was dependent on acyl chain length and saturation. These data indicate that NKT cells recognize categories of glycolipids beyond those in sphingomonas and suggest that NKT cell responses driven by T cell receptor-mediated glycolipid recognition may provide protection against diverse pathogens.

Synergistic Costimulation by Both B7 Molecules Regulates Colitis Pathogenesis

Annals of the New York Academy of Sciences. Aug, 2006  |  Pubmed ID: 17057203

It has been reported that B7-1 and B7-2 play different roles in the pathogenesis of autoimmunity, but this issue is controversial. Here we analyzed colitis induced by transfer of CD45RB(high) CD4+ T cells to immune-deficient recipients that lack expression of either B7-1 or B7-2. Surprisingly, disease was greatly accelerated in Rag(-/-) recipients deficient for either B7 molecule. Antigen presenting cells (APCs) lacking B7-1 or B7-2 stimulated T cell proliferation in vitro, but caused suboptimal IL-2 production, leading to decreased induction of CTLA-4. The data suggest that regulatory T cells function relatively normally in B7 single-deficient recipients, but they cannot restrain the increased pathogenesis by naïve cells primed in B7 single-deficient mice. Therefore, the inhibitory effect of CTLA-4 on pathogenic T cells likely slows colitis, even in the absence of regulatory T cells. While a full block of costimulation may prevent autoimmunity, our data indicate, surprisingly, that a partial block may in some cases augment disease.

Activation of Natural Killer T Cells by Glycolipids

Methods in Enzymology. 2006  |  Pubmed ID: 17132506

Natural killer T (NKT) cells are a distinct T-cell sublineage, originally named because of their coexpression of an alphabeta T cell antigen receptor (TCR) characteristic of T lymphocytes, and NK1.1, a C-type lectin expressed by natural killer (NK) cells. NKT cells use their TCR to recognize glycolipids bound to or presented by CD1d. Until recently, most studies used the synthetic glycolipid alpha-galactosylceramide (alphaGalCer) to activate these lymphocytes, and very little was known about the natural antigens recognized by NKT cells. Given the pivotal role played by the NKT cells in many immune responses, including antimicrobial responses, tumor rejection, and the development of autoimmune diseases, the identification of the natural antigens recognized by these cells, and analogs that may alter their cytokine production, are goals of primary importance. This chapter discusses methods that can be used to assess the potency of potential glycolipid antigens for this unique population of T lymphocytes, including methods for in vitro NKT cell activation and expansion, in vivo activation, and measurement of their avidity for different antigens.

Invariant Natural Killer Cells in the Response to Bacteria: the Advent of Specific Antigens

Future Microbiology. Oct, 2006  |  Pubmed ID: 17661645

Invariant natural killer T (iNKT) cells are a unique subset of T lymphocytes that have been implicated in diverse immune reactions, ranging from self-tolerance and development of autoimmunity to responses to pathogens and tumors. Although some degree of autoreactivity of iNKT cells has been shown, it remained controversial whether the T-cell antigen receptor expressed by these cells could recognize microbial antigens, hampering the investigation of their physiological role during tolerance and immunity. Several recent publications have now defined natural antigens for the majority of iNKT cells in some Proteobacteria and in Borrelia burgdorferi, demonstrating specificity of these cells for microbes in addition to self-reactivity. The characterization of natural antigens from bacteria, and the iNKT cell response to bacteria containing them, are decisive steps toward the clarification of the natural role of iNKT cells in host defense against pathogens, and will likely spur numerous findings in the near future.

The Proatherogenic Role of T Cells Requires Cell Division and is Dependent on the Stage of the Disease

Arteriosclerosis, Thrombosis, and Vascular Biology. Feb, 2006  |  Pubmed ID: 16322528

The mechanism by which T cells exert a proatherogenic potential is unclear. In order to determine whether this potential requires their replication, we crossed atherosclerosis-prone apolipoprotein E knockout mice (ApoE degrees) with transgenic mice in which exclusive and conditional ablation of dividing T cells relies on their specific expression of the herpes simplex type 1 thymidine kinase (TK) suicide gene.

Frontline T Cells: Gammadelta T Cells and Intraepithelial Lymphocytes

Immunological Reviews. Feb, 2007  |  Pubmed ID: 17291274

Thymic Differentiation of TCR Alpha Beta(+) CD8 Alpha Alpha(+) IELs

Immunological Reviews. Feb, 2007  |  Pubmed ID: 17291288

Intraepithelial lymphocytes (IELs) contain several subsets, but the origin of the T-cell receptor (TCR)alphabeta(+) CD8 alpha alpha(+) IELs has been particularly controversial. Here we provide a synthesis, based on recent work, that attempts to unify the divergent views. The intestine has a primordial function in lymphopoiesis, and precursors with the potential to differentiate into T cells are found both in the epithelium and underlying lamina propria. Moreover, the thymus has been reported to export cells to the intestine that are not fully differentiated. TCR alpha beta(+) CD8 alpha alpha(+) IELs can differentiate in the intestine from each of these sources, but in normal euthymic mice, the thymus appears to be the major source for TCR alpha beta(+) CD8 alpha alpha(+) IELs. This unique IEL subset is a self-reactive population that requires exposure to self-agonists for selection in the thymus, similar to other regulatory T-cell populations. IELs transition through a double-positive (DP) intermediate in the thymus, but they originate from a subset of the DP cells that can be identified by its expression of CD8 alpha alpha homodimers. The agonist-selected cells in the thymus are TCRbeta(+) but CD4 and CD8 double negative. The evidence suggests that reacquired expression of CD8 alpha alpha and downregulation of CD5 occur after thymus export, perhaps in the intestine under the influence of interleukin-15. As a result of agonist exposure, a new gene expression program is activated. Therefore, the increased understanding of the developmental origin of TCR alpha beta(+) CD8 alpha alpha(+) IELs may help us to understand how they participate in immune regulation and protection in the intestine.

On the Road: Progress in Finding the Unique Pathway of Invariant NKT Cell Differentiation

Current Opinion in Immunology. Apr, 2007  |  Pubmed ID: 17303398

Two populations of natural killer T cells with invariant TCR alpha-chains (iNKT cells) have been identified in mice and humans. These conserved populations have distinct functional properties and anatomical distributions. The differentiation pathway of iNKT cells positively selected by CD1d molecules branches off from the pathway of mainstream thymocyte development at the double-positive (CD4(+)CD8(+)) stage. Recent work shows how signaling events early in the thymus can imprint the memory-like behavior of these iNKT cells and that unique molecular interactions govern their development and emigration from the thymus. Factors shaping their variable repertoire of the T-cell antigen receptor beta-chain, in addition to novel autologous antigens, have been defined; however, it remains unclear whether there is a single autologous antigen responsible for both positive selection and peripheral activation.

Invariant NKT Cells Amplify the Innate Immune Response to Lipopolysaccharide

Journal of Immunology (Baltimore, Md. : 1950). Mar, 2007  |  Pubmed ID: 17312112

NKT cells are thought of as a bridge between innate and adaptive immunity. In this study, we demonstrate that mouse NKT cells are activated in response to Escherichia coli LPS, and produce IFN-gamma, but not IL-4, although activation through their TCR typically induces both IL-4 and IFN-gamma production. IFN-gamma production by NKT cells is dependent on LPS-induced IL-12 and IL-18 from APC. LPS induced IFN-gamma production by NKT cells does not require CD1d-mediated presentation of an endogenous Ag and exposure to a combination of IL-12 and IL-18 is sufficient to activate them. In mice that are deficient for NKT cells, innate immune cells are activated less efficiently in response to LPS, resulting in the reduced production of TNF and IFN-gamma. We propose that in addition to acting as a bridge to adaptive immunity, NKT cells act as an early amplification step in the innate immune response and that the rapid and complete initiation of this innate response depends on the early production of IFN-gamma by NKT cells.

Mouse TCRalphabeta+CD8alphaalpha Intraepithelial Lymphocytes Express Genes That Down-regulate Their Antigen Reactivity and Suppress Immune Responses

Journal of Immunology (Baltimore, Md. : 1950). Apr, 2007  |  Pubmed ID: 17371979

Mouse small intestine intraepithelial lymphocytes (IEL) that express alphabetaTCR and CD8alphaalpha homodimers are an enigmatic T cell subset, as their specificity and in vivo function remain to be defined. To gain insight into the nature of these cells, we performed global gene expression profiling using microarray analysis combined with real-time quantitative PCR and flow cytometry. Using these methods, TCRalphabeta(+)CD8alphaalpha IEL were compared with their TCRalphabeta(+)CD8beta(+) and TCRgammadelta(+) counterparts. Interestingly, TCRalphabeta(+)CD8alphaalpha IEL were found to preferentially express genes that would be expected to down-modulate their reactivity. They have a unique expression pattern of members of the Ly49 family of NK receptors and tend to express inhibitory receptors, along with some activating receptors. The signaling machinery of both TCRalphabeta(+)CD8alphaalpha and TCRgammadelta(+) IEL is constructed differently than other IEL and peripheral T cells, as evidenced by their low-level expression of the linker for activation of T cells and high expression of the non-T cell activation linker, which suppresses T cell activation. The TCRalphabeta(+)CD8alphaalpha IEL subset also has increased expression of genes that could be involved in immune regulation, including TGF-beta(3) and lymphocyte activation gene-3. Collectively, these data underscore the fact that, while TCRalphabeta(+)CD8alphaalpha IEL resemble TCRgammadelta(+) IEL, they are a unique population of cells with regulated Ag reactivity that could have regulatory function.

Natural Killer T Cells: Know Thyself

Proceedings of the National Academy of Sciences of the United States of America. Apr, 2007  |  Pubmed ID: 17389403

Paradoxical Effect of Reduced Costimulation in T Cell-mediated Colitis

Journal of Immunology (Baltimore, Md. : 1950). May, 2007  |  Pubmed ID: 17442938

B7-1 and B7-2 play different roles in the pathogenesis of autoimmunity, but this is controversial. We analyzed colitis induced by transfer of CD45RB(high)CD4(+) T cells to RAG(-/-) recipients lacking B7-1 and/or B7-2. Surprisingly, disease was greatly accelerated in RAG(-/-) recipients deficient for either B7-1 or B7-2, especially in the B7-2(-/-) recipients. This accelerated colitis induction correlated with increased T cell division in vivo and production of Th1 cytokines. Although colitis pathogenesis following T cell transfer was inhibited in the absence of CD40L expression, CD40-CD40L interactions were not required in the B7-2(-/-) RAG(-/-) recipients. In vitro priming by APCs lacking either B7-1 or B7-2 caused decreased IL-2 production, which led to decreased CTLA-4 expression, although T cells primed in this way could respond vigorously upon restimulation by producing increased IL-2 and proinflammatory cytokines. Consistent with this mechanism, we demonstrate that blocking IL-2 early after T cell transfer accelerated colitis. Our data therefore outline a mechanism whereby synergistic costimulation by B7-1 and B7-2 molecules during priming is required for optimal IL-2 production. The consequent inhibitory effect of full CTLA-4 expression, induced by IL-2, may slow colitis, even in the absence of regulatory T cells.

The Unique Role of Natural Killer T Cells in the Response to Microorganisms

Nature Reviews. Microbiology. Jun, 2007  |  Pubmed ID: 17487145

Natural killer T (NKT) cells combine features of the innate and adaptive immune systems. Recently, it has become evident that these T cells have crucial roles in the response to infectious agents. The antigen receptor expressed by NKT cells directly recognizes unusual glycolipids that are part of the membrane of certain Gram-negative bacteria and spirochetes. Moreover, even in the absence of microbial glycolipid antigens, these T cells respond to innate cytokines produced by dendritic cells that have been activated by microbes. This indirect sensing of infection, by responding to cytokines from activated dendritic cells, allows NKT cells to react to a broad range of infectious agents.

Reciprocal TH17 and Regulatory T Cell Differentiation Mediated by Retinoic Acid

Science (New York, N.Y.). Jul, 2007  |  Pubmed ID: 17569825

The cytokine transforming growth factor-beta (TGF-beta) converts naïve T cells into regulatory T (Treg) cells that prevent autoimmunity. However, in the presence of interleukin-6 (IL-6), TGF-beta has also been found to promote the differentiation of naïve T lymphocytes into proinflammatory IL-17 cytokine-producing T helper 17 (T(H)17) cells, which promote autoimmunity and inflammation. This raises the question of how TGF-beta can generate such distinct outcomes. We identified the vitamin A metabolite retinoic acid as a key regulator of TGF-beta-dependent immune responses, capable of inhibiting the IL-6-driven induction of proinflammatory T(H)17 cells and promoting anti-inflammatory Treg cell differentiation. These findings indicate that a common metabolite can regulate the balance between pro- and anti-inflammatory immunity.

CD1 Mediated T Cell Recognition of Glycolipids

Current Opinion in Structural Biology. Oct, 2007  |  Pubmed ID: 17951048

Specialized subsets of T lymphocytes can distinguish the carbohydrate portions of microbial and self-glycolipids when they are presented by proteins in the CD1 family of antigen presenting molecules. Recent immunochemical and structural analyses indicate that the chemical composition of the presented carbohydrate, together with its precise orientation above the CD1 binding groove, determines if a particular T cell is activated. More recently, however, it has been shown that the lipid backbone of the glycolipid, buried inside the CD1 protein, also can have an impact on T cell activation. While glycolipid recognition is a relatively new category of T cell specificity, the powerful combination of microbial antigen discovery and structural biochemistry has provided great insight into the mechanism of carbohydrate recognition.

Natural Killer T Cells Exacerbate Liver Injury in a Transforming Growth Factor Beta Receptor II Dominant-negative Mouse Model of Primary Biliary Cirrhosis

Hepatology (Baltimore, Md.). Feb, 2008  |  Pubmed ID: 18098320

Primary biliary cirrhosis (PBC) is an organ-specific autoimmune liver disease characterized by the presence of antimitochondrial antibodies and the destruction of small intrahepatic bile ducts with portal inflammation. In previous studies, we reported that both CD1d expression and the frequency of CD1d-restricted natural killer T (NKT) cells were increased in the livers of patients with PBC. To define a specific role of CD1d-restricted NKT cells in the pathogenesis of PBC, particularly early events, we investigated the function of hepatic CD1d-restricted NKT cells in our transforming growth factor beta (TGF-beta) receptor II dominant-negative (dnTGFbetaRII) mouse model of PBC. We generated CD1d(-/-) and CD1d(+/-) dnTGFbetaRII mice and performed a comparative study of liver immunopathology. We report herein that these dnTGFbetaRII mice demonstrate a massive increase of hyperactive CD1d-restricted NKT cells within the hepatic tissues. CD1d(-/-)dnTGFbetaRII mice, which lack CD1d-restricted CD1d-restricted NKT cells, exhibit significantly decreased hepatic lymphoid cell infiltrates and milder cholangitis compared with CD1d(+/-)dnTGFbetaRII mice. Interestingly, there was a significant increase in the production of interferon-gamma in hepatic CD1d-restricted NKT cells activated by alpha-galactosylceramide in young but not older dnTGFbetaRII mice, suggesting an age-dependent role of CD1d-restricted NKT cells. CONCLUSION: These data demonstrate that CD1d-restricted NKT cells in dnTGFbetaRII mice are a critical factor in liver injury.

Cutting Edge: Activation by Innate Cytokines or Microbial Antigens Can Cause Arrest of Natural Killer T Cell Patrolling of Liver Sinusoids

Journal of Immunology (Baltimore, Md. : 1950). Feb, 2008  |  Pubmed ID: 18250405

Natural killer T (NKT) cells are innate-like lymphocytes that rapidly secrete large amounts of effector cytokines upon activation. Recognition of alpha-linked glycolipids presented by CD1d leads to the production of IL-4, IFN-gamma, or both, while direct activation by the synergistic action of IL-12 and IL-18 leads to IFN-gamma production only. We previously reported that in vitro cultured dendritic cells can modulate NKT cell activation and, using intravital fluorescence laser scanning microscopy, we reported that the potent stimulation of NKT cells results in arrest within hepatic sinusoids. In this study, we examine the relationship between murine NKT cell patrolling and activation. We report that NKT cell arrest results from activation driven by limiting doses of a bacteria-derived weak agonist, galacturonic acid-containing glycosphingolipid, or a synthetic agonist, alpha-galactosyl ceramide. Interestingly, NKT cell arrest also results from IL-12 and IL-18 synergistic activation. Thus, innate cytokines and natural microbial TCR agonists trigger sinusoidal NKT cell arrest and an effector response.

Villous B Cells of the Small Intestine Are Specialized for Invariant NK T Cell Dependence

Journal of Immunology (Baltimore, Md. : 1950). Apr, 2008  |  Pubmed ID: 18354186

B cells are important in mucosal microbial homeostasis through their well-known role in secretory IgA production and their emerging role in mucosal immunoregulation. Several specialized intraintestinal B cell compartments have been characterized, but the nature of conventional B cells in the lamina propria is poorly understood. In this study, we identify a B cell population predominantly composed of surface IgM(+) IgD(+) cells residing in villi of the small intestine and superficial lamina propria of the large intestine, but distinct from the intraepithelial compartment or organized intestinal lymphoid structures. Small intestinal (villous) B cells are diminished in genotypes that alter the strength of BCR signaling (Bruton tyrosine kinase(xid), Galphai2(-/-)), and in mice lacking cognate BCR specificity. They are not dependent on enteric microbial sensing, because they are abundant in mice that are germfree or genetically deficient in TLR signaling. However, villous B cells are reduced in the absence of invariant NK T cells (Jalpha18(-/-) or CD1d(-/-) mice). These findings define a distinct population of conventional B cells in small intestinal villi, and suggest an immunologic link between CD1-restricted invariant NK T cells and this B cell population.

Abrogation of Anti-retinal Autoimmunity in IL-10 Transgenic Mice Due to Reduced T Cell Priming and Inhibition of Disease Effector Mechanisms

Journal of Immunology (Baltimore, Md. : 1950). Apr, 2008  |  Pubmed ID: 18390724

Experimental autoimmune uveitis (EAU) induced by immunization of animals with retinal Ags is a model for human uveitis. The immunosuppressive cytokine IL-10 regulates EAU susceptibility and may be a factor in genetic resistance to EAU. To further elucidate the regulatory role of endogenous IL-10 in the mouse model of EAU, we examined transgenic (Tg) mice expressing IL-10 either in activated T cells (inducible) or in macrophages (constitutive). These IL-10-Tg mice and non-Tg wild-type controls were immunized with a uveitogenic regimen of the retinal Ag interphotoreceptor retinoid-binding protein. Constitutive expression of IL-10 in macrophages abrogated disease and reduced Ag-specific immunological responses. These mice had detectable levels of IL-10 in sera and in ocular extracts. In contrast, expression of IL-10 in activated T cells only partially protected from EAU and marginally reduced Ag-specific responses. All IL-10-Tg lines showed suppression of Ag-specific effector cytokines. APC from Tg mice constitutively expressing IL-10 in macrophages exhibited decreased ability to prime naive T cells, however, Ag presentation to already primed T cells was not compromised. Importantly, IL-10-Tg mice that received interphotoreceptor retinoid-binding protein-specific uveitogenic T cells from wild-type donors were protected from EAU. We suggest that constitutively produced endogenous IL-10 ameliorates the development of EAU by suppressing de novo priming of Ag-specific T cells and inhibiting the recruitment and/or function of inflammatory leukocytes, rather than by inhibiting local Ag presentation within the eye.

A Crucial Role for HVEM and BTLA in Preventing Intestinal Inflammation

The Journal of Experimental Medicine. Jun, 2008  |  Pubmed ID: 18519647

The interaction between the tumor necrosis factor (TNF) family member LIGHT and the TNF family receptor herpes virus entry mediator (HVEM) co-stimulates T cells and promotes inflammation. However, HVEM also triggers inhibitory signals by acting as a ligand that binds to B and T lymphocyte attenuator (BTLA), an immunoglobulin super family member. The contribution of HVEM interacting with these two binding partners in inflammatory processes remains unknown. In this study, we investigated the role of HVEM in the development of colitis induced by the transfer of CD4(+)CD45RB(high) T cells into recombination activating gene (Rag)(-/-) mice. Although the absence of HVEM on the donor T cells led to a slight decrease in pathogenesis, surprisingly, the absence of HVEM in the Rag(-/-) recipients led to the opposite effect, a dramatic acceleration of intestinal inflammation. Furthermore, the critical role of HVEM in preventing colitis acceleration mainly involved HVEM expression by radioresistant cells in the Rag(-/-) recipients interacting with BTLA. Our experiments emphasize the antiinflammatory role of HVEM and the importance of HVEM expression by innate immune cells in preventing runaway inflammation in the intestine.

Acid Test: Lipid Antigens Get into the Groove

Immunity. Jun, 2008  |  Pubmed ID: 18549793

How do CD1 molecules load lipid antigens? In this issue of Immunity, Relloso et al. (2008) uncover how lysosomal pH targets amino acids in CD1b, causing it to open and attain a conformation more receptive to lipid antigens.

Natural Sphingomonas Glycolipids Vary Greatly in Their Ability to Activate Natural Killer T Cells

Chemistry & Biology. Jul, 2008  |  Pubmed ID: 18635002

Mouse natural killer T (NKT) cells expressing an invariant T cell antigen receptor (TCR) recognize glycosphingolipids (GSLs) from Sphingomonas bacteria. The synthetic antigens previously tested, however, were designed to closely resemble the potent synthetic agonist alpha-galactosyl ceramide (alphaGalCer), which contains a monosaccharide and a C18:0 sphingosine lipid. Some Sphingomonas bacteria, however, also have oligosaccharide-containing GSLs, and they normally synthesize several GSLs with different sphingosine chains including one with a cyclopropyl ring-containing C21:0 (C21cycl) sphingosine. Here we studied the stimulation of NKT cells with synthetic GSL antigens containing natural tetrasaccharide sugars, or the C21cycl sphingosine. Our results indicate that there is a great degree of variability in the antigenic potency of different natural Sphingomonas glycolipids, with the C21cycl sphingosine having intermediate potency and the oligosaccharide-containing antigens exhibiting limited or no stimulatory capacity.

RAGE, Carboxylated Glycans and S100A8/A9 Play Essential Roles in Colitis-associated Carcinogenesis

Carcinogenesis. Oct, 2008  |  Pubmed ID: 18689872

Patients with inflammatory bowel diseases are at increased risk for colorectal cancer, but the molecular mechanisms linking inflammation and cancer are not well defined. We earlier showed that carboxylated N-glycans expressed on receptor for advanced glycation end products (RAGE) and other glycoproteins mediate colitis through activation of nuclear factor kappa B (NF-kappaB). Because NF-kappaB signaling plays a critical role in the molecular pathogenesis of colitis-associated cancer (CAC), we reasoned that carboxylated glycans, RAGE and its ligands might promote CAC. Carboxylated glycans are expressed on a subpopulation of RAGE on colon cancer cells and mediate S100A8/A9 binding to RAGE. Colon tumor cells express binding sites for S100A8/A9 and binding leads to activation of NF-kappaB and tumor cell proliferation. Binding, downstream signaling and tumor cell proliferation are blocked by mAbGB3.1, an anti-carboxylate glycan antibody, and by anti-RAGE. In human colon tumor tissues and in a mouse model of CAC, we found that myeloid progenitors expressing S100A8 and S100A9 infiltrate regions of dysplasia and adenoma. mAbGB3.1 administration markedly reduces chronic inflammation and tumorigenesis in the mouse model of CAC and RAGE-deficient mice are resistant to the onset of CAC. These findings show that RAGE, carboxylated glycans and S100A8/A9 play essential roles in tumor-stromal interactions, leading to inflammation-associated colon carcinogenesis.

Cutting Edge: the Mechanism of Invariant NKT Cell Responses to Viral Danger Signals

Journal of Immunology (Baltimore, Md. : 1950). Oct, 2008  |  Pubmed ID: 18802047

Invariant NK T (iNKT) cells influence the response to viral infections, although the mechanisms are poorly defined. In this study we show that these innate-like lymphocytes secrete IFN-gamma upon culture with CpG oligodeoxynucleotide-stimulated dendritic cells (DCs) from mouse bone marrow. This requires TLR9 signaling and IL-12 secretion by the activated DCs, but it does not require CD1d expression. iNKT cells also produce IFN-gamma in response to mouse CMV infection. Their mechanism of mouse CMV detection is quite similar to that of CpG, requiring both TLR9 signaling and IL-12 secretion, while the need for CD1d expression is relatively minor. Consequently, iNKT cells have the ability to respond to a variety of microbes, including viruses, in an Ag-independent manner, suggesting they may play a broad role in antipathogen defenses despite their limited TCR repertoire.

Activation of Invariant NKT Cells Ameliorates Experimental Ocular Autoimmunity by a Mechanism Involving Innate IFN-gamma Production and Dampening of the Adaptive Th1 and Th17 Responses

Journal of Immunology (Baltimore, Md. : 1950). Oct, 2008  |  Pubmed ID: 18802082

Invariant NKT cells (iNKT cells) have been reported to play a role not only in innate immunity but also to regulate several models of autoimmunity. Furthermore, iNKT cells are necessary for the generation of the prototypic eye-related immune regulatory phenomenon, anterior chamber associated immune deviation (ACAID). In this study, we explore the role of iNKT cells in regulation of autoimmunity to retina, using a model of experimental autoimmune uveitis (EAU) in mice immunized with a uveitogenic regimen of the retinal Ag, interphotoreceptor retinoid-binding protein. Natural strain-specific variation in iNKT number or induced genetic deficiencies in iNKT did not alter baseline susceptibility to EAU. However, iNKT function seemed to correlate with susceptibility and its pharmacological enhancement in vivo by treatment with iNKT TCR ligands at the time of uveitogenic immunization reproducibly ameliorated disease scores. Use of different iNKT TCR ligands revealed dependence on the elicited cytokine profile. Surprisingly, superior protection against EAU was achieved with alpha-C-GalCer, which induces a strong IFN-gamma but only a weak IL-4 production by iNKT cells, in contrast to the ligands alpha-GalCer (both IFN-gamma and IL-4) and OCH (primarily IL-4). The protective effect of alpha-C-GalCer was associated with a reduction of adaptive Ag-specific IFN-gamma and IL-17 production and was negated by systemic neutralization of IFN-gamma. These data suggest that pharmacological activation of iNKT cells protects from EAU at least in part by a mechanism involving innate production of IFN-gamma and a consequent dampening of the Th1 as well as the Th17 effector responses.

Spontaneous Colitis Occurrence in Transgenic Mice with Altered B7-mediated Costimulation

Journal of Immunology (Baltimore, Md. : 1950). Oct, 2008  |  Pubmed ID: 18832683

The B7 costimulatory molecules govern many aspects of T cell immune responses by interacting with CD28 for costimulation, but also with CTLA-4 for immune suppression. Although blockade of CTLA-4 with Ab in humans undergoing cancer immune therapy has led to some cases of inflammatory bowel disease, spontaneous animal models of colitis that depend upon modulation of B7 interactions have not been previously described. In this study, we demonstrate that mice expressing a soluble B7-2 Ig Fc chimeric protein spontaneously develop colitis that is dependent on CD28-mediated costimulation of CD4(+) T cells. We show that the chimeric protein has mixed agonistic/antagonist properties, and that it acts in part by blocking the cell intrinsic effects on T cell activation of engagement of CTLA-4. Disease occurred in transgenic mice that lack expression of the endogenous B7 molecules (B7 double knock-out mice), because of the relatively weak costimulatory delivered by the chimeric protein. Surprisingly, colitis was more severe in this context, which was associated with the decreased number of Foxp3(+) regulatory T cells in transgenic B7 double knock-out mice. This model provides an important tool for examining how B7 molecules and their effects on CTLA-4 modulate T cell function and the development of inflammatory diseases.

NKT Cells Prevent Chronic Joint Inflammation After Infection with Borrelia Burgdorferi

Proceedings of the National Academy of Sciences of the United States of America. Dec, 2008  |  Pubmed ID: 19060201

Borrelia burgdorferi is the etiologic agent of Lyme disease, a multisystem inflammatory disorder that principally targets the skin, joints, heart, and nervous system. The role of T lymphocytes in the development of chronic inflammation resulting from B. burgdorferi infection has been controversial. We previously showed that natural killer T (NKT) cells with an invariant (i) TCR alpha chain (iNKT cells) recognize glycolipids from B. burgdorferi, but did not establish an in vivo role for iNKT cells in Lyme disease pathogenesis. Here, we evaluate the importance of iNKT cells for host defense against these pathogenic spirochetes by using Valpha14i NKT cell-deficient (Jalpha18(-/-)) BALB/c mice. On tick inoculation with B. burgdorferi, Jalpha18(-/-) mice exhibited more severe and prolonged arthritis as well as a reduced ability to clear spirochetes from infected tissues. Valpha14i NKT cell deficiency also resulted in increased production of antibodies directed against both B. burgdorferi protein antigens and borrelial diacylglycerols; the latter finding demonstrates that anti-glycolipid antibody production does not require cognate help from Valpha14i NKT cells. Valpha14i NKT cells in infected wild-type mice expressed surface activation markers and produced IFNgamma in vivo after infection, suggesting a participatory role for this unique population in cellular immunity. Our data are consistent with the hypothesis that the antigen-specific activation of Valpha14i NKT cells is important for the prevention of persistent joint inflammation and spirochete clearance, and they counter the long-standing notion that humoral rather than cellular immunity is sufficient to facilitate Lyme disease resolution.

Role of NKT Cells in the Digestive System. IV. The Role of Canonical Natural Killer T Cells in Mucosal Immunity and Inflammation

American Journal of Physiology. Gastrointestinal and Liver Physiology. Jan, 2008  |  Pubmed ID: 17947447

Lymphocytes that combine features of T cells and natural killer (NK) cells are named natural killer T (NKT) cells. The majority of NKT cells in mice bear highly conserved invariant Valpha chains, and to date two populations of such canonical NKT cells are known in mice: those that express Valpha14 and those that express Valpha7.2. Both populations are selected by nonpolymorphic major histocompatibility complex class I-like antigen-presenting molecules expressed by hematopoietic cells in the thymus: CD1d for Valpha14-expressing NKT cells and MR1 for those cells expressing Valpha7.2. The more intensely studied Valpha14 NKT cells have been implicated in diverse immune reactions, including immune regulation and inflammation in the intestine; the Valpha7.2 expressing cells are most frequently found in the lamina propria. In humans, populations of canonical NKT cells are found to be highly similar in terms of the expression of homologous, invariant T cell antigen-receptor alpha-chains, specificity, and function, although their frequency differs from those in the mouse. In this review, we will focus on the role of both of these canonical NKT cell populations in the mucosal tissues of the intestine.

NKG2A Inhibits Invariant NKT Cell Activation in Hepatic Injury

Journal of Immunology (Baltimore, Md. : 1950). Jan, 2009  |  Pubmed ID: 19109156

Activation of invariant NKT (iNKT) cells in the liver is generally regarded as the critical step for Con A-induced hepatitis, and the role of NK cell receptors for iNKT cell activation is still controversial. In this study we show that blockade of the NKG2A-mediated inhibitory signal with antagonistic anti-NKG2A/C/E mAb (20d5) aggravated Con A-induced hepatitis in wild-type, Fas ligand (FasL)-mutant gld, and IL-4-deficient mice even with NK cell and CD8 T cell depletion, but not in perforin-, IFN-gamma-, or IFN-gamma- and perforin-deficient mice. Consistently, 20d5 pretreatment augmented serum IFN-gamma levels and perforin-dependent cytotoxicity of liver mononuclear cells following Con A injection, but not their FasL/Fas-dependent cytotoxicity. However, blockade of NKG2A-mediated signals during the cytotoxicity effector phase did not augment cytotoxic activity. Activated iNKT cells promptly disappeared after Con A injection, whereas NK1(-) iNKT cells, which preferentially expressed CD94/NKG2A, predominantly remained in the liver. Pretreatment with 20d5 appeared to facilitate disappearance of iNKT cells, particularly NK1(-) iNKT cells. Moreover, Con A-induced and alpha-galactosylceramide-induced hepatic injury was very severe in CD94/NKG2A-deficient DBA/2J mice compared with CD94/NKG2A-intact DBA/2JJcl mice. Overall, these results indicated that a NKG2A-mediated signal negatively regulates iNKT cell activation and hepatic injury.

Regulating the Mucosal Immune System: the Contrasting Roles of LIGHT, HVEM, and Their Various Partners

Seminars in Immunopathology. Jul, 2009  |  Pubmed ID: 19495760

LIGHT and herpes virus entry mediator (HVEM) comprise a ligand-receptor pair in the tumor necrosis factor superfamily. These molecules play an important role in regulating immunity, particularly in the intestinal mucosa. LIGHT also binds the lymphotoxin beta receptor, and HVEM can act as a ligand for immunoglobulin family molecules, including B- and T-lymphocyte attenuator, which suppresses immune responses. Complexity in this pivotal system arises from several factors, including the non-monogamous pairing of ligands and receptors, and reverse signaling or the ability of some ligands to serve as receptors. As a result, recognition events in this fascinating network of interacting molecules can have pro- or anti-inflammatory consequences. Despite complexity, experiments we and others are carrying out are establishing rules for understanding when and in what cell types these molecules contribute to intestinal inflammation.

Synthesis and Evaluation of 3''- and 4''-deoxy and -fluoro Analogs of the Immunostimulatory Glycolipid, KRN7000

Bioorganic & Medicinal Chemistry Letters. Aug, 2009  |  Pubmed ID: 19535248

Four 3''- and 4''-deoxy and -fluorogalactosyl ceramides were synthesized, and their ability to stimulate iNKT cells, based on levels of IL-2 production, was assessed in three NKT cell receptor hybridomas. In two of the hybridomas, 1.2 and 2H4, all of the analogs were immunostimulatory, while in the 1.4 hybridoma only the 4''-fluoro analog led to the production of significant levels of IL-2.

Carbohydrate Specificity of the Recognition of Diverse Glycolipids by Natural Killer T Cells

Immunological Reviews. Jul, 2009  |  Pubmed ID: 19594637

Most T lymphocytes recognize peptide antigens bound to or presented by molecules encoded in the major histocompatibility complex (MHC). The CD1 family of antigen-presenting molecules is related to the MHC-encoded molecules, but CD1 proteins present lipid antigens, mostly glycolipids. Here we review T-lymphocyte recognition of glycolipids, with particular emphasis on the subpopulation known as natural killer T (NKT) cells. NKT cells influence many immune responses, they have a T-cell antigen receptor (TCR) that is restricted in diversity, and they share properties with cells of the innate immune system. NKT cells recognize antigens presented by CD1d with hexose sugars in alpha-linkage to lipids, although other, related antigens are known. The hydrophobic alkyl chains are buried in the CD1d groove, with the carbohydrate exposed for TCR recognition, together with the surface of the CD1d molecule. Therefore, understanding the biochemical basis for antigen recognition by NKT cells requires an understanding of how the trimolecular complex of CD1d, glycolipid, and the TCR is formed, which is in part a problem of carbohydrate recognition by the TCR. Recent investigations from our laboratories as well as studies from other groups have provided important information on the structural basis for NKT-cell specificity.

Innate-like Recognition of Microbes by Invariant Natural Killer T Cells

Current Opinion in Immunology. Aug, 2009  |  Pubmed ID: 19646850

Invariant natural killer T cells (iNKT cells) express a restricted T cell antigen receptor (TCR) repertoire and they respond rapidly to glycolipid antigens presented by CD1d. These glycolipid antigens have hexose sugars in alpha-linkage to two types of lipids that can bind to CD1d. Recent work has shown that the responses of iNKT cells to antigen-bearing microbes can have a profound impact on the development of inflammatory diseases. iNKT cells overcome the limitation of their limited TCR diversity by also responding in a foreign antigen-independent fashion to some infectious agents, similar to NK cells. Recent results demonstrate several mechanisms for the indirect activation of iNKT cells by viruses or TLR ligands, dependent on self-antigen recognition and/or different cytokines produced by antigen presenting cells. The means by which iNKT cells influence other cell types and overall host defense are likewise diverse, illustrating the flexibility and functional diversity of this T lymphocyte sublineage.

Interleukin 10 Acts on Regulatory T Cells to Maintain Expression of the Transcription Factor Foxp3 and Suppressive Function in Mice with Colitis

Nature Immunology. Nov, 2009  |  Pubmed ID: 19783988

Regulatory T cells (T(reg) cells) that express the transcription factor Foxp3 suppress the activity of other cells. Here we show that interleukin 10 (IL-10) produced by CD11b(+) myeloid cells in recombination-activating gene 1-deficient (Rag1(-/-)) recipient mice was needed to prevent the colitis induced by transferred CD4(+)CD45RB(hi) T cells. In Il10(-/-)Rag1(-/-) mice, T(reg) cells failed to maintain Foxp3 expression and regulatory activity. The loss of Foxp3 expression occurred only in recipients with colitis, which indicates that the requirement for IL-10 is manifested in the presence of inflammation. IL-10 receptor-deficient (Il10rb(-/-)) T(reg) cells also failed to maintain Foxp3 expression, which suggested that host IL-10 acted directly on the T(reg) cells. Our data indicate that IL-10 released from myeloid cells acts in a paracrine manner on T(reg) cells to maintain Foxp3 expression.

Mechanisms of NKT Cell Anergy Induction Involve Cbl-b-promoted Monoubiquitination of CARMA1

Proceedings of the National Academy of Sciences of the United States of America. Oct, 2009  |  Pubmed ID: 19815501

Repeated injection of alpha-galactosylceramide, an agonistic ligand for natural killer T (NKT) cells, results in long-term unresponsiveness or anergy, which severely limits its clinical application. However, the molecular mechanisms leading to NKT anergy induction remain unclear. We show here that the decreased IFN-gamma production and failed tumor rejection observed in anergized NKT cells are rescued by Cbl-b deficiency. Cbl-b E3 ligase activity is critical for the anergy induction, as revealed by the similarity between Cbl-b(-/-) and its RING finger mutant NKT cells. Cbl-b binds and promotes monoubiquitination to CARMA1, a critical signaling molecule in NFkappaB activation. Ubiquitin conjugation to CARMA1 disrupts its complex formation with Bcl10 without affecting its protein stability. In addition, CARMA1(-/-) NKT cells are defective in IFN-gamma production. The study identifies an important signaling pathway linking Cbl-b-induced monoubiquitination to NFkappaB activation in NKT cell anergy induction, which may help design approaches for human cancer therapy.

Transcriptional Regulator Id2 Controls Survival of Hepatic NKT Cells

Proceedings of the National Academy of Sciences of the United States of America. Nov, 2009  |  Pubmed ID: 19884494

Natural killer T cells expressing an invariant T-cell receptor (iNKT) regulate activation of both innate and adaptive immunity in many contexts. iNKT cells accumulate in the liver and rapidly produce prodigious amounts of numerous cytokines upon activation, impacting the immune response to viral infection, immunosurveillance for malignant cells, and liver regeneration. However, little is known about the factors controlling iNKT homeostasis, survival and hepatic localization. Here, we report that the absence of the transcriptional regulator Id2 resulted in a severe, intrinsic defect in the accumulation of hepatic iNKT cells. Id2-deficient iNKT cells showed increased cell death in the liver, although migration and functional activity were not impaired in comparison to Id2-expressing iNKT cells. Id2-deficient iNKT cells exhibited diminished expression of CXCR6, a critical determinant of iNKT cell accumulation in the liver, and of the anti-apoptotic molecules bcl-2 and bcl-X(L), compared to Id2-sufficient iNKT cells. Furthermore, survival and accumulation of iNKT cells lacking Id2 expression was rescued by deficiency in bim, a key pro-apoptotic molecule. Thus, Id2 was necessary to establish a hepatic iNKT cell population, defining a role for Id2 and implicating the Id targets, E protein transcription factors, in the regulation of iNKT cell homeostasis.

T Cell Intrinsic Heterodimeric Complexes Between HVEM and BTLA Determine Receptivity to the Surrounding Microenvironment

Journal of Immunology (Baltimore, Md. : 1950). Dec, 2009  |  Pubmed ID: 19915044

The inhibitory cosignaling pathway formed between the TNF receptor herpesvirus entry mediator (HVEM, TNFRSF14) and the Ig superfamily members, B and T lymphocyte attenuator (BTLA) and CD160, limits the activation of T cells. However, BTLA and CD160 can also serve as activating ligands for HVEM when presented in trans by adjacent cells, thus forming a bidirectional signaling pathway. BTLA and CD160 can directly activate the HVEM-dependent NF-kappaB RelA transcriptional complex raising the question of how NF-kappaB activation is repressed in naive T cells. In this study, we show BTLA interacts with HVEM in cis, forming a heterodimeric complex in naive T cells that inhibits HVEM-dependent NF-kappaB activation. The cis-interaction between HVEM and BTLA is the predominant form expressed on the surface of naive human and mouse T cells. The BTLA ectodomain acts as a competitive inhibitor blocking BTLA and CD160 from binding in trans to HVEM and initiating NF-kappaB activation. The TNF-related ligand, LIGHT (homologous to lymphotoxins, exhibits inducible expression, and competes with HSV glycoprotein D for HVEM, a receptor expressed by T lymphocytes, or TNFSF14) binds HVEM in the cis-complex, but NF-kappaB activation was attenuated, suggesting BTLA prevents oligomerization of HVEM in the cis-complex. Genetic deletion of BTLA or pharmacologic disruption of the HVEM-BTLA cis-complex in T cells promoted HVEM activation in trans. Interestingly, herpes simplex virus envelope glycoprotein D formed a cis-complex with HVEM, yet surprisingly, promoted the activation NF-kappaB RelA. We suggest that the HVEM-BTLA cis-complex competitively inhibits HVEM activation by ligands expressed in the surrounding microenvironment, thus helping maintain T cells in the naive state.

Detection of Microbes by Natural Killer T Cells

Advances in Experimental Medicine and Biology. 2009  |  Pubmed ID: 19209678

Unconventional Ligand Activation of Herpesvirus Entry Mediator Signals Cell Survival

Proceedings of the National Academy of Sciences of the United States of America. Apr, 2009  |  Pubmed ID: 19332782

The herpesvirus entry mediator (HVEM; TNFRSF14) activates NF-kappaB through the canonical TNF-related cytokine LIGHT, serving as a costimulatory pathway during activation of T cells. HVEM also functions as a ligand for the Ig superfamily members B and T lymphocyte attenuator (BTLA) and CD160, both of which limit inflammatory responses initiated by T cells. Emerging evidence indicates BTLA also promotes T cell survival, but its structural differences from LIGHT intimate BTLA is unlikely to function as an activator of HVEM. We demonstrate here that BTLA, CD160, and herpes simplex virus envelope glycoprotein D (gD) function as activating ligands for HVEM, promoting NF-kappaB activation and cell survival. Membrane-expressed BTLA and CD160, as well as soluble dimeric receptor surrogates BTLA-Fc and gD-Fc specifically activated HVEM-dependent NF-kappaB. BTLA and CD160 engagement induced recruitment of TNF receptor-associated factor 2 (TRAF2), but not TRAF3, to HVEM that specifically activated the RelA but not the RelB form of NF-kappaB in a mucosal epithelial tumor cell line. Moreover, Btla(-/-) T cells survived poorly following activation but were rescued with BTLA-Fc, indicating HVEM-BTLA bidirectional signaling may serve as a critical cell-survival system for lymphoid and epithelial cells.

Retinoic Acid Can Directly Promote TGF-beta-mediated Foxp3(+) Treg Cell Conversion of Naive T Cells

Immunity. Apr, 2009  |  Pubmed ID: 19371709

NKT Cells Turn Ten

Nature Immunology. Jul, 2009  |  Pubmed ID: 19536187

It has been 10 years since the first workshop on natural killer T cells helped to launch a growth phase for this field of research.

The Roles of 3' and 4' Hydroxy Groups in Alpha-galactosylceramide Stimulation of Invariant Natural Killer T Cells

ChemMedChem. Nov, 2009  |  Pubmed ID: 19780098

Mechanisms for Glycolipid Antigen-driven Cytokine Polarization by Valpha14i NKT Cells

Journal of Immunology (Baltimore, Md. : 1950). Jan, 2010  |  Pubmed ID: 19949076

Certain glycolipid Ags for Valpha14i NKT cells can direct the overall cytokine balance of the immune response. Th2-biasing OCH has a lower TCR avidity than the most potent agonist known, alpha-galactosylceramide. Although the CD1d-exposed portions of OCH and alpha-galactosylceramide are identical, structural analysis indicates that there are subtle CD1d conformational differences due to differences in the buried lipid portion of these two Ags, likely accounting for the difference in antigenic potency. Th1-biasing C-glycoside/CD1d has even weaker TCR interactions than OCH/CD1d. Despite this, C-glycoside caused a greater downstream activation of NK cells to produce IFN-gamma, accounting for its promotion of Th1 responses. We found that this difference correlated with the finding that C-glycoside/CD1d complexes survive much longer in vivo. Therefore, we suggest that the pharmacokinetic properties of glycolipids are a major determinant of cytokine skewing, suggesting a pathway for designing therapeutic glycolipids for modulating invariant NKT cell responses.

Lipid Binding Orientation Within CD1d Affects Recognition of Borrelia Burgorferi Antigens by NKT Cells

Proceedings of the National Academy of Sciences of the United States of America. Jan, 2010  |  Pubmed ID: 20080535

Invariant natural killer T cells (iNKT cells) respond to CD1d-presented glycolipids from Borrelia burgdorferi, the causative agent of Lyme disease. Although mouse and human iNKT cells respond to different antigens based on subtle differences in their fatty acids, the mechanism by which fatty acid structure determines antigenic potency is not well understood. Here we show that the mouse and human CD1d present glycolipids having different fatty acids, based in part upon a difference at a single amino acid position that is involved in positioning the sugar epitope. CD1d also can bind nonantigenic lipids, however, but unexpectedly, mouse CD1d orients the two aliphatic chains of a nonantigenic lipid rotated 180 degrees, causing a dramatic repositioning of the exposed sugar. Therefore, our data reveal the biochemical basis for the high degree of antigenic specificity of iNKT cells for certain fatty acids, and they suggest how microbes could alter fatty acid biosynthesis as an immune evasion mechanism.

Loss of T Cell and B Cell Quiescence Precedes the Onset of Microbial Flora-dependent Wasting Disease and Intestinal Inflammation in Gimap5-deficient Mice

Journal of Immunology (Baltimore, Md. : 1950). Apr, 2010  |  Pubmed ID: 20190135

Homeostatic control of the immune system involves mechanisms that ensure the self-tolerance, survival and quiescence of hematopoietic-derived cells. In this study, we demonstrate that the GTPase of immunity associated protein (Gimap)5 regulates these processes in lymphocytes and hematopoietic progenitor cells. As a consequence of a recessive N-ethyl-N-nitrosourea-induced germline mutation in the P-loop of Gimap5, lymphopenia, hepatic extramedullary hematopoiesis, weight loss, and intestinal inflammation occur in homozygous mutant mice. Irradiated fetal liver chimeric mice reconstituted with Gimap5-deficient cells lose weight and become lymphopenic, demonstrating a hematopoietic cell-intrinsic function for Gimap5. Although Gimap5-deficient CD4(+) T cells and B cells appear to undergo normal development, they fail to proliferate upon Ag-receptor stimulation although NF-kappaB, MAP kinase and Akt activation occur normally. In addition, in Gimap5-deficient mice, CD4(+) T cells adopt a CD44(high)CD62L(low)CD69(low) phenotype and show reduced IL-7ralpha expression, and T-dependent and T-independent B cell responses are abrogated. Thus, Gimap5-deficiency affects a noncanonical signaling pathway required for Ag-receptor-induced proliferation and lymphocyte quiescence. Antibiotic-treatment or the adoptive transfer of Rag-sufficient splenocytes ameliorates intestinal inflammation and weight loss, suggesting that immune responses triggered by microbial flora causes the morbidity in Gimap5-deficient mice. These data establish Gimap5 as a key regulator of hematopoietic integrity and lymphocyte homeostasis.

Regulatory B Cells Prevent and Reverse Allergic Airway Inflammation Via FoxP3-positive T Regulatory Cells in a Murine Model

The Journal of Allergy and Clinical Immunology. May, 2010  |  Pubmed ID: 20304473

Parasitic helminth infections of humans have been shown to suppress the immune response to allergens. Experimentally, infection of mice with the helminth Schistosoma mansoni prevents allergic airway inflammation and anaphylaxis via IL-10 and B cells.

Co-receptor Choice by V Alpha14i NKT Cells is Driven by Th-POK Expression Rather Than Avoidance of CD8-mediated Negative Selection

The Journal of Experimental Medicine. May, 2010  |  Pubmed ID: 20404101

Mouse natural killer T (NKT) cells with an invariant V alpha14-J alpha18 rearrangement (V alpha14 invariant [V alpha14i] NKT cells) are either CD4(+)CD8(-) or CD4(-)CD8(-). Because transgenic mice with forced CD8 expression in all T cells exhibited a profound NKT cell deficit, the absence of CD8 has been attributed to negative selection. We now present evidence that CD8 does not serve as a coreceptor for CD1d recognition and that the defect in development in CD8 transgene homozygous mice is the result of a reduction in secondary T cell receptor alpha rearrangements. Thymocytes from mice hemizygous for the CD8 transgene have a less severe rearrangement defect and have functional CD8(+) V alpha14i NKT cells. Furthermore, we demonstrate that the transcription factor Th, Poxviruses and Zinc finger, and Krüppel family (Th-POK) is expressed by V alpha14i NKT cells throughout their differentiation and is necessary both to silence CD8 expression and for the functional maturity of V alpha14i NKT cells. We therefore suggest that Th-POK expression is required for the normal development of V alpha14i NKT cells and that the absence of CD8 expression by these cells is a by-product of such expression, as opposed to the result of negative selection of CD8-expressing V alpha14i NKT cells.

Antigen-specific Cytotoxicity by Invariant NKT Cells in Vivo is CD95/CD178-dependent and is Correlated with Antigenic Potency

Journal of Immunology (Baltimore, Md. : 1950). Sep, 2010  |  Pubmed ID: 20660713

Invariant NKT (iNKT) cells are a unique subset of T lymphocytes that rapidly carry out effector functions following activation with glycolipid Ags, such as the model Ag alpha-galactosylceramide. Numerous studies have investigated the mechanisms leading to Th1 and Th2 cytokine production by iNKT cells, as well as the effects of the copious amounts of cytokines these cells produce. Less is known, however, about the mechanisms of iNKT cell cytotoxicity. In this study, we investigated the effect of Ag availability and strength, as well as the molecules involved in iNKT cytotoxicity. We demonstrate that the iNKT cell cytotoxicity in vivo correlates directly with the amount of CD1d expressed by the targets as well as the TCR affinity for the target glycolipid Ag. iNKT cells from spleen, liver, and thymus were comparable in their cytotoxicity in vitro. Surprisingly, we show that the Ag-specific cytotoxicity of iNKT cells in vivo depended almost exclusively on the interaction of CD95 (Fas) with CD178 (FasL), and that this mechanism can be efficiently used for tumor protection. Therefore, unlike NK cells, which rely mostly on perforin/granzyme-mediated mechanisms, the Ag-specific cytotoxicity of iNKT cells in vivo is largely restricted to the CD95/CD178 pathway.

The Vα14 Invariant Natural Killer T Cell TCR Forces Microbial Glycolipids and CD1d into a Conserved Binding Mode

The Journal of Experimental Medicine. Oct, 2010  |  Pubmed ID: 20921281

Invariant natural killer T cells (iNKT cells) rapidly produce effector cytokines. In this study, we report the first crystal structures of the iNKT cell T cell receptor (TCR) bound to two natural, microbial glycolipids presented by CD1d. Binding of the TCR induced CDR3-α-dependent structural changes in the F' roof of CD1d; these changes resemble those occurring in the absence of TCR engagement when the highly potent synthetic antigen α-galactosylceramide (α-GalCer) binds CD1d. Furthermore, in the Borrelia burgdorferi α-galactosyl diacylglycerol-CD1d complex, TCR binding caused a marked repositioning of the galactose sugar into an orientation that closely resembles α-GalCer. The TCR-dependent reorientation of the sugar, together with the induced CD1d fit, may explain the weaker potency of the microbial antigens compared with α-GalCer. We propose that the TCR of iNKT cells binds with a conserved footprint onto CD1d, regardless of the bound glycolipid antigen, and that for microbial antigens this unique binding mode requires TCR-initiated conformational changes.

Commensal Microbiota and CD8+ T Cells Shape the Formation of Invariant NKT Cells

Journal of Immunology (Baltimore, Md. : 1950). Feb, 2010  |  Pubmed ID: 20048124

Commensal bacteria play an important role in formation of the immune system, but the mechanisms involved are incompletely understood. In this study, we analyze CD1d-restricted invariant NKT (iNKT) cells in germfree mice and in two colonies of C57BL/6 mice termed conventional flora and restricted flora (RF), stably bearing commensal microbial communities of diverse but distinct composition. In germfree mice, iNKT cells were moderately reduced, suggesting that commensal microbiota were partially required for the antigenic drive in maintaining systemic iNKT cells. Surprisingly, even greater depletion of iNKT cell population occurred in RF mice. This was in part attributable to reduced RF levels of intestinal microbial taxa (Sphingomonas spp.) known to express antigenic glycosphingolipid products. However, memory and activated CD8(+) T cells were also expanded in RF mice, prompting us to test whether CD8(+) T cell activity might be further depleting iNKT cells. Indeed, iNKT cell numbers were restored in RF mice bearing the CD8alpha(-/-) genotype or in adult wild-type RF mice acutely depleted with anti-CD8 Ab. Moreover, iNKT cells were restored in RF mice bearing the Prf1(-/-) phenotype, a key component of cytolytic function. These findings indicate that commensal microbiota, through positive (antigenic drive) and negative (cytolytic depletion by CD8(+) T cells) mechanisms, profoundly shape the iNKT cell compartment. Because individuals greatly vary in the composition of their microbial communities, enteric microbiota may play an important epigenetic role in the striking differences in iNKT cell abundance in humans and therefore in their potential contribution to host immune status.

A CD1d-dependent Antagonist Inhibits the Activation of Invariant NKT Cells and Prevents Development of Allergen-induced Airway Hyperreactivity

Journal of Immunology (Baltimore, Md. : 1950). Feb, 2010  |  Pubmed ID: 20083656

The prevalence of asthma continues to increase in westernized countries, and optimal treatment remains a significant therapeutic challenge. Recently, CD1d-restricted invariant NKT (iNKT) cells were found to play a critical role in the induction of airway hyperreactivity (AHR) in animal models and are associated with asthma in humans. To test whether iNKT cell-targeted therapy could be used to treat allergen-induced airway disease, mice were sensitized with OVA and treated with di-palmitoyl-phosphatidyl-ethanolamine polyethylene glycol (DPPE-PEG), a CD1d-binding lipid antagonist. A single dose of DPPE-PEG prevented the development of AHR and pulmonary infiltration of lymphocytes upon OVA challenge, but had no effect on the development of OVA-specific Th2 responses. In addition, DPPE-PEG completely prevented the development of AHR after administration of alpha-galactosylceramide (alpha-GalCer) intranasally. Furthermore, we demonstrate that DPPE-PEG acts as antagonist to alpha-GalCer and competes with alpha-GalCer for binding to CD1d. Finally, we show that DPPE-PEG completely inhibits the alpha-GalCer-induced phosphorylation of ERK tyrosine kinase in iNKT cells, suggesting that DPPE-PEG specifically blocks TCR signaling and thus activation of iNKT cells. Because iNKT cells play a critical role in the development of AHR, the inhibition of iNKT activation by DPPE-PEG suggests a novel approach to treat iNKT cell-mediated diseases such as asthma.

Regulation of Inflammation, Autoimmunity, and Infection Immunity by HVEM-BTLA Signaling

Journal of Leukocyte Biology. Apr, 2011  |  Pubmed ID: 21106644

The HVEM, or TNFRSF14, is a membrane-bound receptor known to activate the NF-κB pathway, leading to the induction of proinflammatory and cell survival-promoting genes. HVEM binds several ligands that are capable of mediating costimulatory pathways, predominantly through its interaction with LIGHT (TNFSF14). However, it can also mediate coinhibitory effects, predominantly by interacting with IGSF members, BTLA or CD160. Therefore, it can function like a "molecular switch" for various activating or inhibitory functions. Furthermore, recent studies suggest the existence of bidirectional signaling with HVEM acting as a ligand for signaling through BTLA, which may act as a ligand in other contexts. Bidirectional signaling, together with new information indicating signaling in cis by cells that coexpress HVEM and its ligands, makes signaling within a HVEM-mediated network complicated, although potentially rich in biology. Accumulating in vivo evidence has shown that HVEM-mediated, coinhibitory signaling may be dominant over HVEM-mediated costimulatory signaling. In several disease models the absence of HVEM-BTLA signaling predominantly resulted in severe mucosal inflammation in the gut and lung, autoimmune-like disease, and impaired immunity during bacterial infection. Here, we will summarize the current view about how HVEM-BTLA signaling is involved in the regulation of mucosal inflammation, autoimmunity, and infection immunity.

Diverse Endogenous Antigens for Mouse NKT Cells: Self-antigens That Are Not Glycosphingolipids

Journal of Immunology (Baltimore, Md. : 1950). Feb, 2011  |  Pubmed ID: 21191069

NKT cells with an invariant Ag receptor (iNKT cells) represent a highly conserved and unique subset of T lymphocytes having properties of innate and adaptive immune cells. They have been reported to regulate a variety of immune responses, including the response to cancers and the development of autoimmunity. The development and activation of iNKT cells is dependent on self-Ags presented by the CD1d Ag-presenting molecule. It is widely believed that these self-Ags are glycosphingolipids (GSLs), molecules that contain ceramide as the lipid backbone. In this study, we used a variety of methods to show that mammalian Ags for mouse iNKT cells need not be GSLs, including the use of cell lines deficient in GSL biosynthesis and an inhibitor of GSL biosynthesis. Presentation of these Ags required the expression of CD1d molecules that could traffic to late endosomes, the site where self-Ag is acquired. Extracts of APCs contain a self-Ag that could stimulate iNKT cells when added to plates coated with soluble, rCD1d molecules. The Ag(s) in these extracts are resistant to sphingolipid-specific hydrolase digestion, consistent with the results using live APCs. Lyosphosphatidylcholine, a potential self-Ag that activated human iNKT cell lines, did not activate mouse iNKT cell hybridomas. Our data indicate that there may be more than one type of self-Ag for iNKT cells, that the self-Ags comparing mouse and human may not be conserved, and that the search to identify these molecules should not be confined to GSLs.

Hepatic Stellate Cells Function As Regulatory Bystanders

Journal of Immunology (Baltimore, Md. : 1950). May, 2011  |  Pubmed ID: 21460203

Regulatory T cells (Tregs) contribute significantly to the tolerogenic nature of the liver. The mechanisms, however, underlying liver-associated Treg induction are still elusive. We recently identified the vitamin A metabolite, retinoic acid (RA), as a key controller that promotes TGF-β-dependent Foxp3(+) Treg induction but inhibits TGF-β-driven Th17 differentiation. To investigate whether the RA producing hepatic stellate cells (HSC) are part of the liver tolerance mechanism, we investigated the ability of HSC to function as regulatory APC. Different from previous reports, we found that highly purified HSC did not express costimulatory molecules and only upregulated MHC class II after in vitro culture in the presence of exogenous IFN-γ. Consistent with an insufficient APC function, HSC failed to stimulate naive OT-II TCR transgenic CD4(+) T cells and only moderately stimulated α-galactosylceramide-primed invariant NKT cells. In contrast, HSC functioned as regulatory bystanders and promoted enhanced Foxp3 induction by OT-II TCR transgenic T cells primed by spleen dendritic cells, whereas they greatly inhibited the Th17 differentiation. Furthermore, the regulatory bystander capacity of the HSC was completely dependent on their ability to produce RA. Our data thus suggest that HSC can function as regulatory bystanders, and therefore, by promoting Tregs and suppressing Th17 differentiation, they might represent key players in the mechanism that drives liver-induced tolerance.

Fibrocyte-like Cells Recruited to the Spleen Support Innate and Adaptive Immune Responses to Acute Injury or Infection

Journal of Molecular Medicine (Berlin, Germany). Oct, 2011  |  Pubmed ID: 21499735

Bone marrow (BM)-derived fibrocytes are a population of CD45(+) and collagen Type I-expressing cells that migrate to the spleen and to target injured organs, such as skin, lungs, kidneys, and liver. While CD45(+)Col(+) fibrocytes contribute to collagen deposition at the site of injury, the role of CD45(+)Col(+) cells in spleen has not been elucidated. Here, we demonstrate that hepatotoxic injury (CCl(4)), TGF-β1, lipopolysaccharide, or infection with Listeria monocytogenes induce rapid recruitment of CD45(+)Col(+) fibrocyte-like cells to the spleen. These cells have a gene expression pattern that includes antimicrobial factors (myleoperoxidase, cathelicidin, and defensins) and MHC II at higher levels than found on quiescent or activated macrophages. The immune functions of these splenic CD45(+)Col(+) fibrocyte-like cells include entrapment of bacteria into extracellular DNA-based structures containing cathelicidin and presentation of antigens to naïve CD8(+) T cells to induce their proliferation. Stimulation of these splenic fibrocyte-like cells with granulocyte macrophage-colony stimulating factor or macrophage-colony stimulating factor induces downregulation of collagen expression and terminal differentiation into the dendritic cells or macrophage. Thus, splenic CD45(+)Col(+) cells are a population of rapidly mobilized BM-derived fibrocyte-like cells that respond to inflammation or infection to participate in innate and adaptive immune responses.

Invariant NKT Cells Are Required for Airway Inflammation Induced by Environmental Antigens

The Journal of Experimental Medicine. Jun, 2011  |  Pubmed ID: 21624935

Invariant NKT cells (iNKT cells) are a unique subset of T lymphocytes that rapidly carry out effector functions. In this study, we report that a majority of sterile house dust extracts (HDEs) tested contained antigens capable of activating mouse and human iNKT cells. HDEs had adjuvant-like properties in an ovalbumin (OVA)-induced asthma model, which were dependent on Vα14i NKT cells, as vaccinated animals deficient for iNKT cells displayed significantly attenuated immune responses and airway inflammation. Furthermore, the administration of HDEs together with OVA mutually augmented the synthesis of cytokines by Vα14i NKT cells and by conventional CD4(+) T cells in the lung, demonstrating a profound immune response synergy for both Th2 cytokines and IL-17A. These data demonstrate that iNKT cell antigens are far more widely dispersed in the environment than previously anticipated. Furthermore, as the antigenic activity in different houses varied greatly, they further suggest that iNKT cell responses to ambient antigens, particular to certain environments, might promote sensitization to conventional respiratory allergens.

Invariant Natural Killer T Cells Recognize Glycolipids from Pathogenic Gram-positive Bacteria

Nature Immunology. Oct, 2011  |  Pubmed ID: 21892173

Natural killer T cells (NKT cells) recognize glycolipid antigens presented by CD1d. These cells express an evolutionarily conserved, invariant T cell antigen receptor (TCR), but the forces that drive TCR conservation have remained uncertain. Here we show that NKT cells recognized diacylglycerol-containing glycolipids from Streptococcus pneumoniae, the leading cause of community-acquired pneumonia, and group B Streptococcus, which causes neonatal sepsis and meningitis. Furthermore, CD1d-dependent responses by NKT cells were required for activation and host protection. The glycolipid response was dependent on vaccenic acid, which is present in low concentrations in mammalian cells. Our results show how microbial lipids position the sugar for recognition by the invariant TCR and, most notably, extend the range of microbes recognized by this conserved TCR to several clinically important bacteria.

Cooling the Fires of Inflammation

Proceedings of the National Academy of Sciences of the United States of America. Oct, 2011  |  Pubmed ID: 21949393

Mucosal Memory CD8⁺ T Cells Are Selected in the Periphery by an MHC Class I Molecule

Nature Immunology. Nov, 2011  |  Pubmed ID: 21964609

The presence of immune memory at pathogen-entry sites is a prerequisite for protection. Nevertheless, the mechanisms that warrant immunity at peripheral interfaces are not understood. Here we show that the nonclassical major histocompatibility complex (MHC) class I molecule thymus leukemia antigen (TL), induced on dendritic cells interacting with CD8αα on activated CD8αβ(+) T cells, mediated affinity-based selection of memory precursor cells. Furthermore, constitutive expression of TL on epithelial cells led to continued selection of mature CD8αβ(+) memory T cells. The memory process driven by TL and CD8αα was essential for the generation of CD8αβ(+) memory T cells in the intestine and the accumulation of highly antigen-sensitive CD8αβ(+) memory T cells that form the first line of defense at the largest entry port for pathogens.

Unique Interplay Between Sugar and Lipid in Determining the Antigenic Potency of Bacterial Antigens for NKT Cells

PLoS Biology. Nov, 2011  |  Pubmed ID: 22069376

Invariant natural killer T (iNKT) cells are an evolutionary conserved T cell population characterized by features of both the innate and adaptive immune response. Studies have shown that iNKT cells are required for protective responses to Gram-positive pathogens such as Streptococcus pneumoniae, and that these cells recognize bacterial diacylglycerol antigens presented by CD1d, a non-classical antigen-presenting molecule. The combination of a lipid backbone containing an unusual fatty acid, vaccenic acid, as well as a glucose sugar that is weaker or not stimulatory when linked to other lipids, is required for iNKT cell stimulation by these antigens. Here we have carried out structural and biophysical studies that illuminate the reasons for the stringent requirement for this unique combination. The data indicate that vaccenic acid bound to the CD1d groove orients the protruding glucose sugar for TCR recognition, and it allows for an additional hydrogen bond of the glucose with CD1d when in complex with the TCR. Furthermore, TCR binding causes an induced fit in both the sugar and CD1d, and we have identified the CD1d amino acids important for iNKT TCR recognition and the stability of the ternary complex. The studies show also how hydrogen bonds formed by the glucose sugar can account for the distinct binding kinetics of the TCR for this CD1d-glycolipid complex. Therefore, our studies illuminate the mechanism of glycolipid recognition for antigens from important pathogens.

Glycolipids That Elicit IFN-γ-biased Responses from Natural Killer T Cells

Chemistry & Biology. Dec, 2011  |  Pubmed ID: 22195564

Natural killer T (NKT) cells recognize glycolipids presented by CD1d. The first antigen described, α-galactosyl ceramide (αGalCer), is a potential anticancer agent whose activity depends upon IFN-γ secretion. We report two analogs of αGalCer based on a naturally occurring glycosphingolipid, plakoside A. These compounds induce enhanced IFN-γ that correlates with detergent-resistant binding to CD1d and an increased stability of the lipid-CD1d complexes on antigen-presenting cells. Structural analysis on one of the analogs indicates that it is more deeply bound inside the CD1d groove, suggesting tighter lipid-CD1d interactions. To our knowledge, this is the first example in which structural information provides an explanation for the increased lipid-CD1d stability, likely responsible for the Th1 bias. We provide insights into the mechanism of IFN-γ-inducing compounds, and because our compounds activate human NKT cells, they could have therapeutic utility.

Making Memory at Birth: Understanding the Differentiation of Natural Killer T Cells

Current Opinion in Immunology. Feb, 2012  |  Pubmed ID: 22305304

Glycolipid reactive natural killer T cells with an invariant TCR α-chain (iNKT cells) are a conserved population of T lymphocytes with a distinct anatomical distribution and functional properties. The differentiation pathway of iNKT cells branches off from mainstream thymocyte differentiation at the double positive stage, and recent work has revealed how signaling events early in the iNKT cell pathway imprint a memory-like behavior on these cells. Additionally, unique molecular interactions governing iNKT cell development and tissue distribution have been uncovered recently, building up our knowledge of the complex network of interactions that form this population. Novel autologous antigens for these cells have been identified, although it has not yet been resolved if there is single endogenous antigen responsible for both positive selection and/or peripheral activation.