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Merck

Leukemia-on-a-chip: Dissecting the chemoresistance mechanisms in B cell acute lymphoblastic leukemia bone marrow niche.

Science advances (2020-11-01)
Chao Ma, Matthew T Witkowski, Jacob Harris, Igor Dolgalev, Sheetal Sreeram, Weiyi Qian, Jie Tong, Xin Chen, Iannis Aifantis, Weiqiang Chen
RESUMEN

B cell acute lymphoblastic leukemia (B-ALL) blasts hijack the bone marrow (BM) microenvironment to form chemoprotective leukemic BM "niches," facilitating chemoresistance and, ultimately, disease relapse. However, the ability to dissect these evolving, heterogeneous interactions among distinct B-ALL subtypes and their varying BM niches is limited with current in vivo methods. Here, we demonstrated an in vitro organotypic "leukemia-on-a-chip" model to emulate the in vivo B-ALL BM pathology and comparatively studied the spatial and genetic heterogeneity of the BM niche in regulating B-ALL chemotherapy resistance. We revealed the heterogeneous chemoresistance mechanisms across various B-ALL cell lines and patient-derived samples. We showed that the leukemic perivascular, endosteal, and hematopoietic niche-derived factors maintain B-ALL survival and quiescence (e.g., CXCL12 cytokine signal, VCAM-1/OPN adhesive signals, and enhanced downstream leukemia-intrinsic NF-κB pathway). Furthermore, we demonstrated the preclinical use of our model to test niche-cotargeting regimens, which may translate to patient-specific therapy screening and response prediction.

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Sigma-Aldrich
Triton X-100, laboratory grade
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Fibrinógeno from bovine plasma, Type I-S, 65-85% protein (≥75% of protein is clottable)
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Trichloro(1H,1H,2H,2H-perfluorooctyl)silane, 97%
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Gelatina from porcine skin, gel strength 300, Type A
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DL-Glyceraldehyde 3-phosphate solution, 45-55 mg/mL in H2O