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CRISPR Dependency Screens in Primary Hematopoietic Stem Cells Identify KDM3B as a Genotype Specific Vulnerability in IDH2- and TET2-Mutant Cells.

Michael R WaartsShoron MowlaMeaghan BoileauAnthony R Martinez BenitezJunya SangoMaya BagishInes Fernandez-MaestreYufan ShanShira E EismanYoung C ParkMatthew WereskiIsabelle CseteKavi O'ConnorAngelica C Romero-VegaLinde A MilesWenbin XiaoXiaodi WuRichard P KocheScott A ArmstrongAlan H ShihEirini P PapapetrouJason M ButlerSheng F CaiRobert L BowmanRoss L Levine
Published in: Cancer discovery (2024)
Clonal hematopoiesis (CH) is a common premalignant state in the blood and confers an increased risk of blood cancers and all-cause mortality. Identification of therapeutic targets in CH has been hindered by the lack of an ex vivo platform amenable for studying primary hematopoietic stem and progenitor cells (HSPCs). Here, we utilize an ex vivo co-culture system of HSPCs with bone marrow endothelial cells to perform CRISPR/Cas9 screens in mutant HSPCs. Our data reveal that loss of the histone demethylase family members Kdm3b and Jmjd1c specifically reduces the fitness of Idh2- and Tet2-mutant HSPCs. Kdm3b loss in mutant cells leads to decreased expression of critical cytokine receptors including Mpl, rendering mutant HSPCs preferentially susceptible to inhibition of downstream JAK2 signaling. Our study nominates an epigenetic regulator and an epigenetically regulated receptor signaling pathway as genotype-specific therapeutic targets and provides a scalable platform to identify genetic dependencies in mutant HSPCs.
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