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Characterization of Bone Marrow Niche in Chronic Myeloid Leukemia Patients Identifies CXCL14 as a New Therapeutic Option

Monika B. Dolinska, Huan Cai, Alma Månsson, Jingyi Shen, Pingnan Xiao, Thibault Bouderlique, Xidan Li, Elory Leonard, Marcus C. Chang, Yuchen Gao, Juan Pablo Medina, Makoto Kondō, Lakshmi Sandhow, Anne‐Sofie Johansson, Stefan Deneberg, Stina Söderlund, Martin Jädersten, Johanna Ungerstedt, Magnus Tobiasson, Arne Östman, Satu Mustjoki, Leif Stenke, Katarina Le Blanc, Eva Hellström‐Lindberg, Sören Lehmann, Marja Ekblom, Ulla Olsson‐Strömberg, Mikael Sigvardsson, Hong Qian

2023Blood11 citationsDOIOpen Access PDF

Abstract

Although tyrosine kinase inhibitors (TKIs) are effective in treating chronic myeloid leukemia (CML), they often fail to eradicate the leukemia-initiating stem cells (LSCs), causing disease persistence and relapse. Evidence indicates that LSC persistence may be because of bone marrow (BM) niche protection; however, little is known about the underlying mechanisms. Herein, we molecularly and functionally characterize BM niches in patients with CML at diagnosis and reveal the altered niche composition and function in these patients. Long-term culture initiating cell assay showed that the mesenchymal stem cells from patients with CML displayed an enhanced supporting capacity for normal and CML BM CD34+CD38- cells. Molecularly, RNA sequencing detected dysregulated cytokine and growth factor expression in the BM cellular niches of patients with CML. Among them, CXCL14 was lost in the BM cellular niches in contrast to its expression in healthy BM. Restoring CXCL14 significantly inhibited CML LSC maintenance and enhanced their response to imatinib in vitro, and CML engraftment in vivo in NSG-SGM3 mice. Importantly, CXCL14 treatment dramatically inhibited CML engraftment in patient-derived xenografted NSG-SGM3 mice, even to a greater degree than imatinib, and this inhibition persisted in patients with suboptimal TKI response. Mechanistically, CXCL14 upregulated inflammatory cytokine signaling but downregulated mTOR signaling and oxidative phosphorylation in CML LSCs. Together, we have discovered a suppressive role of CXCL14 in CML LSC growth. CXCL14 might offer a treatment option targeting CML LSCs.

Topics & Concepts

CXCL14ImatinibCancer researchMyeloid leukemiaBone marrowStem cellCytokineImmunologyImatinib mesylateBiologyEx vivoLeukemiaTyrosine kinaseHaematopoiesisCD38MedicineCD34ChemokineIn vivoImmune systemCell biologySignal transductionCXCL10BiotechnologyChronic Myeloid Leukemia TreatmentsPI3K/AKT/mTOR signaling in cancerChronic Lymphocytic Leukemia Research
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