Method Article

Modeling Chemotherapy Resistant Leukemia In Vitro

DOI:

10.3791/53645

February 9th, 2016

In This Article

Summary

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The current report summarizes a protocol that can be utilized to model the influence of the bone marrow microenvironment niche on leukemic cells with emphasis placed on enrichment of the most chemoresistant subpopulation.

Abstract

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It is well established that the bone marrow microenvironment provides a unique site of sanctuary for hematopoietic diseases that both initiate and progress in this site. The model presented in the current report utilizes human primary bone marrow stromal cells and osteoblasts as two representative cell types from the marrow niche that influence tumor cell phenotype. The in vitro co-culture conditions described for human leukemic cells with these primary niche components support the generation of a chemoresistant subpopulation of tumor cells that can be efficiently recovered from culture for analysis by diverse techniques. A strict feeding schedule to prevent nutrient fluxes followed by gel type 10 cross-linked dextran (G10) particles recovery of the population of tumor cells that have migrated beneath the adherent bone marrow stromal cells (BMSC) or osteoblasts (OB) generating a "phase dim" (PD) population of tumor cells, provides a consistent source of purified therapy resistant leukemic cells. This clinically relevant population of tumor cells can be evaluated by standard methods to investigate apoptotic, metabolic, and cell cycle regulatory pathways as well as providing a more rigorous target in which to test novel therapeutic strategies prior to pre-clinical investigations targeted at minimal residual disease.

Introduction

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The overall goal of the method described is to provide an efficient, cost-effective in vitro approach that supports investigation of the mechanisms that underlie bone marrow supported survival of leukemic cells during chemotherapy exposure. It is well documented that surviving residual tumor cells that persist after treatment contribute to relapse of disease that is often more aggressive than that at diagnosis and is often less effectively treated1-8. Models that include leukemic cells in isolation, such as those limited to culture of cells in media alone, for testing of therapeutic approaches do not factor in these critical signals, or the heterog....

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Protocol

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1. Advanced Preparation

  1. Preparing dextran G10 particles.
    1. Prepare G10 slurry by adding 50 ml 1x PBS to 10 g G10 particles. Mix by inversion and allow G10 to settle out of phosphate buffered saline (PBS) at 4 °C O/N.
    2. The day of G10 column separation, aspirate PBS from settled G10 particles and add 50 ml fresh PBS. Mix by inversion. Repeat twice, adding 50 ml fresh PBS to settled G10 particles and store at 4 °C until ready to use.
  2. Culturing BMSC and OB.
    1. Maintain both BMSC or OB at 37 °C in 6% CO2 and grown on 10 cm tissue culture plates until 90% confluency is reached.

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Results

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Successful setup and culture of this co-culture model will result in the establishment of 3 subpopulations of leukemic cells relative to the adherent BMSC or OB monolayer. Figure 1 shows how ALL cells seeded into a BMSC monolayer initially appear as only a single population of suspended leukemic cells. Over the course of 4 days leukemic cells interact with the BMSC to form 3 spatial subpopulations of leukemic cells (suspended (S), phase bright (PB), and phase dim (PD)). W.......

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Discussion

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Minimal residual disease (MRD) which contributes to relapse of disease continues to be a major clinical challenge in the treatment of aggressive refractory ALL, as well as, a host of other hematological malignancies. The bone marrow microenvironment is the most common site of relapse in ALL3,8. As such, models that model the bone marrow microenvironment are vital tools to test hypotheses related to leukemic tumor cell survival and maintenance of MRD during chemotherapy exposure. While mouse models define the g.......

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Disclosures

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The authors have no competing financial interests.

Acknowledgements

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Supported by National Institutes of Health (NHLBI) R01 HL056888 (LFG), National Cancer Institute (NCI) RO1 CA134573NIH (LFG), P30 GM103488 (LFG), WV CTR-IDEA NIH 1U54 GM104942, the Alexander B. Osborn Hematopoietic Malignancy and Transplantation Program, and the WV Research Trust Fund. We are grateful for the support of Dr. Kathy Brundage and the West Virginia University Flow Cytometry Core Facility, supported by NIH S10-OD016165 and the Institutional Development Award (IDeA) from the NIH Institute of General Medical Sciences of the National Institutes of Health (CoBRE P30GM103488 and INBRE P20GM103434).

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Materials

List of materials used in this article
NameCompanyCatalog NumberComments
G10 sephadex beadsSigmaG10120Referred to in manuscript as gel type 10 cross-linked dextran particles
10 ml sterile syringeBD309604
Glass woolPyrex3950
1-way stopcocksWorld Precision Instruments, Inc.14054-10
50 ml conical centrifuge tubesWorld Wide Medical Products41021039Used as collection tubes
15 ml conical centrifuge tubesWorld Wide Medical Products41021037Used for cell collection
Fetal Bovine SerumSigmaF6178
0.05% Trypsin Mediatech, Inc.25-053-CI
100 x 20 mm Cell Culture DishesGreiner Bio-One664160
Culture media
Osteoblast culture media PromoCellC-27001For human osteoblast media 
RPMI 1640 mediaMediatech, Inc.15-040For tumor media prepation 
Cell lines
Adherent Cells:
Human OsteoblastsPromoCellC-12720Human osteoblast were cultured according to the supplier’s recommendations. 
Human Bone Morrow Stromal CellsWVU Biospecimen CoreDe-identified primary human leukemia and bone marrow stromal cells (BMSC) were provided by the Mary Babb Randolph Cancer Center (MBRCC) Biospecimen Processing Core and the West Virginia University Department of Pathology Tissue Bank. BMSC cultures were established as previously described (*)
Leukemic Cells:
REHATCCATCC-CRL-8286REH cells were cultured according to the supplier’s recommendations and recommended media. 
SD-1DSMZACC 366SD-1 were cultured according to the supplier’s recommendations and recommended media. 
(*) Gibson LF, Fortney J, Landreth KS, Piktel D, Ericson SG, Lynch JP. Disruption of bone marrow stromal cell function by etoposide. Biol Blood Marrow Transplant J Am Soc Blood Marrow Transplant. 1997 Aug;3(3):122–32.

References

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  1. Ayala, F., Dewar, R., Kieran, M., Kalluri, R. Contribution of bone microenvironment to leukemogenesis and leukemia progression. Leukemia. 23 (12), 2233-2241 (2009).
  2. Coustan-Smith, E., Sancho, J., et al. Clinical importance of minimal residual disease....

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Tags

Chemotherapy Resistant LeukemiaIn Vitro ModelBone Marrow MicroenvironmentLeukemic Cell Co CultureBone Marrow Stromal CellsOsteoblast Co CulturePhase Dim CellsG10 Bead SeparationTherapy Resistant Tumor CellsMinimal Residual Disease

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