Low c-Kit expression identifies primitive, therapy-resistant CML stem cells
Mansi Shah, Harish Kumar, Shaowei Qiu, Hui Li, Mason Harris, Jianbo He, Ajay Abraham, David K. Crossman, Andrew Paterson, Robert S. Welner, Ravi Bhatia
Mansi Shah, Harish Kumar, Shaowei Qiu, Hui Li, Mason Harris, Jianbo He, Ajay Abraham, David K. Crossman, Andrew Paterson, Robert S. Welner, Ravi Bhatia
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Research Article Hematology Oncology

Low c-Kit expression identifies primitive, therapy-resistant CML stem cells

Abstract

Despite the efficacy of tyrosine kinase inhibitors (TKIs) in chronic myeloid leukemia (CML), malignant long-term hematopoietic stem cells (LT-HSCs) persist as a source of relapse. However, LT-HSCs are heterogenous and the most primitive, drug-resistant LT-HSC subpopulations are not well characterized. In normal hematopoiesis, self-renewal and long-term reconstitution capacity are enriched within LT-HSCs with low c-Kit expression (c-KITlo). Here, using a transgenic CML mouse model, we found that long-term engraftment and leukemogenic capacity were restricted to c-KITlo CML LT-HSCs. CML LT-HSCs demonstrated enhanced differentiation with expansion of mature progeny following exposure to the c-KIT ligand, stem cell factor (SCF). Conversely, SCF deletion led to depletion of normal LT-HSCs but increase in c-KITlo and total CML LT-HSCs with reduced generation of mature myeloid cells. CML c-KITlo LT-HSCs showed reduced cell cycling and expressed enhanced quiescence and inflammatory gene signatures. SCF administration led to enhanced depletion of CML primitive progenitors but not LT-HSCs after TKI treatment. Human CML LT-HSCs with low or absent c-KIT expression were markedly enriched after TKI treatment. We conclude that CML LT-HSCs expressing low c-KIT levels are enriched for primitive, quiescent, drug-resistant leukemia-initiating cells and represent a critical target for eliminating disease persistence.

Authors

Mansi Shah, Harish Kumar, Shaowei Qiu, Hui Li, Mason Harris, Jianbo He, Ajay Abraham, David K. Crossman, Andrew Paterson, Robert S. Welner, Ravi Bhatia

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Figure 3

Long-term repopulating and disease-generating capacity is restricted to CML c-KITlo LT-HSCs.

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Long-term repopulating and disease-generating capacity is restricted to ...
FACS-sorted c-KIThi and c-KITlo LT-HSCs from both normal and CML mice (CD45.2) (150 LT-HSCs together with 200,000 support BM cells [CD45.1]) were transplanted into lethally irradiated recipient (CD45.1) mice and followed for donor chimerism (A). Peripheral blood (PB) normal donor chimerism following transplantation of normal c-KITlo LT-HSCs (n = 8) and c-KIThi LT-HSCs (n = 9) (B). Representative FACS plots showing donor LSK cells in transplant recipients of normal c-KITlo LT-HSCs and c-KIThi LT-HSCs (C). Percentage of donor LT-HSC chimerism at 16 weeks following transplantation of normal c-KITlo LT-HSCs and c-KIThi LT-HSCs (D). MFI of surface c-KIT levels in donor LSK cells in recipient mice transplanted with normal c-KITlo LT-HSCs and c-KIThi LT-HSCs (E). Concatenated histogram plots showing c-KIT MFI on donor LT-HSCs in recipient mice transplanted with c-KITlo LT-HSCs and c-KIThi LT-HSCs (F). PB normal donor chimerism (G) and white blood count (WBC) (H) following transplantation of CML c-KITlo LT-HSCs (n = 8) and c-KIThi LT-HSCs (n = 5). Spleen weights in recipient mice 16 weeks following transplantation of CML c-KITlo LT-HSCs and c-KIThi LT-HSCs (I). Representative FACS plots showing donor LSK cells in recipients of CML c-KITlo LT-HSCs and c-KIThi LT-HSCs (J). Percentage of donor LT-HSC chimerism at 16 weeks following transplantation of CML c-KITlo LT-HSCs and c-KIThi LT-HSCs (K). Data represented as mean ± SEM, *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001, based on 2-way ANOVA with Holm-Šídák test (B, G, and H) and t test (C, E, I, and K).