Rapid and Accurate Remethylation of Dnmt3a Deficient Hematopoietic Cells with Restoration of DNMT3A Activity

Heterozygous loss-of-function mutations in the DNMT3A gene are the most common cause of clonal hematopoiesis, and among the most common initiating events for Acute Myeloid Leukemia (AML). A reduction of DNMT3A activity causes a canonical, focal hypomethylation phenotype in hematopoietic cells, which is associated with immortalization of hematopoietic stem cells, and blockage of myeloid differentiation. The methylation defect can be partially reversed with restoration of physiologic levels of DNMT3A expression over a period of several months (Ketkar et al., PNAS, 2020; PMID 35313694).To identify a more efficient remethylation strategy, we first characterized the DNA methylation phenotypes of bone marrow cells from mice with hematopoietic cell deficiency of Dnmt3a, Dnmt3b (or both enzymes), or expressing the dominant negative Dnmt3aR878H mutation (equivalent to R882H in humans; the most common mutation found in AML patients). Using these different mouse models as substrates, we then defined the patterns and completeness of DNA remethylation after “adding back” supraphysiologic levels of wild type DNMT3A1, DNMT3B1, DNMT3B3 (an inactive splice isoform of DNMT3B), or DNMT3L (a catalytically inactive “chaperone” that augments the activity of DNMT3A and DNMT3B in early embryogenesis), with MSCV-based retroviruses transduced into primary mouse hematopoietic stem/progenitor cell s. Overexpression of WT DNMT3A for 2 weeks in vitro (~3 fold) can accurately reverse the differentially methylated regions (DMRs, which are >99% hypomethylated) of Dnmt3a deficient hematopoietic cells, or cells expressing the R878H mutation. The DMRs of Dnmt3b deficient mouse bone marrow cells can be corrected by overexpression of DNMT3A, DNMT3B1, or DNMT3B3; however, DNMT3B3 failed to remethylate the DMRs in Dnmt3a/Dnmt3b double knockout mouse bone marrow cells. Since DNMT3B3 is an inactive enzyme that does not cause remethylation in the absence of DNMT3A, these data suggest that DNMT3B3 functions in a DNMT3A-dependent manner in hematopoietic cells. Importantly, both DNMT3B3 and DNMT3L have been shown to facilitate DNA methylation by acting as a chaperone for DNMT3A (Duymich et al., Nat. Communication, 2016; PMID 27121154). In vitro, DNMT3L copurified with DNMT3A leads to an increase in DNMT3A methyltransferase activity that is ~5 times greater than DNMT3B3 copurified with DNMT3A. Remarkably, overexpression of DNMT3L (which is not expressed in adult hematopoietic cells, or AML cells) can c