Metallothionein 1 (Mt1) Regulates Growth and Survival of DNMT3A;NPM1-Mutant Acute Myeloid Leukemia

Adult de novo acute myeloid leukemia (AML) is a hematologic malignancy with poor prognosis, commonly driven by mutations in genes including the DNA methyltransferase DNMT3A and nucleophosmin NPM1. We previously generated sequentially inducible mouse models of these mutations and observed transformation from clonal hematopoiesis (CH) to myeloproliferative disorder to AML. In transformed AML, leukemia-propagating cells have a myeloid-restricted progenitor cell phenotype (c-Kit+). Here, to identify mechanisms that sustain tumorigenesis, we performed single-cell RNA-seq of c-Kit+ cells from four primary Dnmt3a;Npm1-mutant AML samples. The most primitive subset of c-Kit+ cells, a multipotent progenitor population Multi-Lin-2, had increased expression of the antioxidant and heavy metal chelator metallothionein 1 (Mt1) in all AML samples. Cas9-mediated Mt1 knockout in primary Dnmt3a;Npm1-mutant AML resulted in reduced cell cycling and proliferation and increased pyroptosis in vitro and increased overall survival following transplant into congenic recipient mice. Overall design: To investigate the transcriptional differences observed in CRISPR-Cas9 mediated knock-down of Metallothionein 1 (Mt1) in Dnmt3aR878H/+;Npm1cA/+ associated AML in C57BL/6 mice.