Method Article

Purification of the Membrane Compartment for Endoplasmic Reticulum-associated Degradation of Exogenous Antigens in Cross-presentation

DOI:

10.3791/55949

August 21st, 2017

In This Article

Summary

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The method described here is a new vesicle isolation protocol, which allows for the purification of the cellular compartments where exogenous antigens are processed by endoplasmic reticulum-associated degradation in cross-presentation.

Abstract

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Dendritic cells (DCs) are highly capable of processing and presenting internalized exogenous antigens upon major histocompatibility class (MHC) I molecules also known as cross-presentation (CP). CP plays an important role not only in the stimulation of naïve CD8+ T cells and memory CD8+ T cells for infectious and tumor immunity but also in the inactivation of self-acting naïve T cells by T cell anergy or T cell deletion. Although the critical molecular mechanism of CP remains to be elucidated, accumulating evidence indicates that exogenous antigens are processed through endoplasmic reticulum-associated degradation (ERAD) after export from non-classical endocytic compartments. Until recently, characterizations of these endocytic compartments were limited because there were no specific molecular markers other than exogenous antigens. The method described here is a new vesicle isolation protocol, which allows for the purification of these endocytic compartments. Using this purified microsome, we reconstituted the ERAD-like transport, ubiquitination, and processing of the exogenous antigen in vitro, suggesting that the ubiquitin-proteasome system processed the exogenous antigen after export from this cellular compartment. This protocol can be further applied to other cell types to clarify the molecular mechanism of CP.

Introduction

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The MHC I molecules are expressed on the surface of all nucleated cells, with short antigenic peptides derived from endogenous antigens, which are processed by the ubiquitin-proteasome system in the cytosol1. After processing, antigenic peptides are transported into the endoplasmic reticulum (ER) lumen by the peptide transporter TAP. In the ER lumen, a series of specific chaperones assist the peptide loading and the correct folding of the MHC I complex. This series of molecules is called the peptide-loading complex (PLC), indicating that the ER is a central compartment for peptide loading upon MHC I2. After peptide loadi....

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Protocol

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1. Growing Cells and Addition of Exogenous Antigens

  1. Prepare bOVA using a biotin-protein labeling kit following the manufacturer's protocol.
    NOTE: Ordinarily, bOVA contains 2 M biotin per 1 M OVA on average.
  2. Grow DC2.4 cells in RPMI-1640 supplemented with 2 mM L-glutamine, 1 mM sodium pyruvate, 0.1 mM nonessential amino acids, 100 U/mL penicillin-streptomycin, 55 mM 2-mercaptoethanol, 10 mM HEPES (pH 7.5), and 10% fetal calf serum (hereafter RPMI) at 37 °C in 5% CO2 in a humidified incubator (hereafter without mention, cells are incubated at this condition). It is also possible to use DMEM supplemented with 10% fetal cal....

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Results

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To elucidate the molecular mechanism of CP, it is necessary to identify the cellular compartments, where exogenous antigens undergo ERAD-like transport and processing. While observations by immunofluorescent microscopy or by electron microscopy identified the cellular compartment where exogenous antigens accumulated16,17,18,19,.......

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Discussion

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In previous studies of CP, the incorporated exogenous antigens accumulated in the restricted area of the late endosome or ER by immunofluorescent microscopy16,30,31,32. It is estimated that ERAD-like transport and processing of exogenous antigens are carried out in these specialized areas of the ER or late endosome, as the cellular compartment was identified by sucrose or iodixanol density grad.......

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Disclosures

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The authors have nothing to disclose.

Acknowledgements

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This work is supported by the Takasaki University of Health and Welfare.

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Materials

List of materials used in this article
NameCompanyCatalog NumberComments
RPMI 1640gibco by life technologies11875-093
Fetal bovine serumEquitech bioSFB30
Sodium pyruvategibco by life technologies11360-070
MEM non-essential amino acidsgibco by life technologies11140-050
HEPESgibco by life technologies15630-080
2-mercaptoethanolgibco by life technologies21985-023
L-glutaminegibco by life technologies25030-164
Penisicillin-Sreptomycingibco by life technologies15140-122
DMEMgibco by life technologies12100-46
OVASIGMAA5503
Biotin-protein labelling kitThermo Fisher ScientificF6347
MG-132Santa Cruz Biotechnology201270
lactacystinSIGMAL6785
Dounce homogenizerIUCHI131703
protease inhibitor cocktailsSIGMAP8340
iodixanolCosmo bio1114542
SA-magnetic beadsNew England Biolabs201270
control magnetic beadsChemagenM-PVA012
magnetic standBD Biosciences552311
BCA protein assay kitThermo Fisher Scientific23225
silver staining kitsCosmo bio423413
Reticulocyte LysatePromega1730714
Flag-tagged ubiquitinSIGMAU5382
anti-ovalbumin (OVA,mouse)Antibody ShopHYB 094-06
ant-multi-ubiquitin (mouse)MBLD058−3
anti-Flag (mouse)SIGMAF3165
trypsinSIGMA85450C

References

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  1. van Endert, P. Providing ligands for MHC class I molecules. Cell Mol Life Sci. 68 (9), 1467-1469 (2011).
  2. Janeway, C., Travers, P., Walport, M., Shlomchik, M. Immunobiology: The Immune System in Health and Disease. , 5th ed, Garland Press. New York. (2001).
  3. McDevitt, H. O.

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Tags

Cross presentationEndoplasmic Reticulum associated DegradationExogenous Antigen ProcessingDendritic Cell IsolationVesicle Purification ProtocolMicrosome PreparationERAD like TransportUbiquitination AssayAntigen PresentationCellular Compartment Purification

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