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Kmt2c mutations enhance HSC self-renewal capacity and convey a selective advantage after chemotherapy

Ran Chen, Theresa Okeyo-Owuor, Riddhi Patel, Emily B. Casey, Andrew Cluster, Wei Yang, Jeffrey A. Magee

2021Cell Reports35 citationsDOIOpen Access PDF

Abstract

The myeloid tumor suppressor KMT2C is recurrently deleted in myelodysplastic syndrome (MDS) and acute myeloid leukemia (AML), particularly therapy-related MDS/AML (t-MDS/t-AML), as part of larger chromosome 7 deletions. Here, we show that KMT2C deletions convey a selective advantage to hematopoietic stem cells (HSCs) after chemotherapy treatment that may precipitate t-MDS/t-AML. Kmt2c deletions markedly enhance murine HSC self-renewal capacity without altering proliferation rates. Haploid Kmt2c deletions convey a selective advantage only when HSCs are driven into cycle by a strong proliferative stimulus, such as chemotherapy. Cycling Kmt2c-deficient HSCs fail to differentiate appropriately, particularly in response to interleukin-1. Kmt2c deletions mitigate histone methylation/acetylation changes that accrue as HSCs cycle after chemotherapy, and they impair enhancer recruitment during HSC differentiation. These findings help explain why Kmt2c deletions are more common in t-MDS/t-AML than in de novo AML or clonal hematopoiesis: they selectively protect cycling HSCs from differentiation without inducing HSC proliferation themselves.

Topics & Concepts

HaematopoiesisCancer researchBiologyMyeloid leukemiaStem cellMyeloidAcetylationHematopoietic stem cellGeneticsGeneAcute Myeloid Leukemia ResearchEpigenetics and DNA MethylationProtein Degradation and Inhibitors
Kmt2c mutations enhance HSC self-renewal capacity and convey a selective advantage after chemotherapy | Litcius