The R736H cancer mutation in DNMT3A modulates the properties of the FF-subunit interface.

The DNMT3A DNA methyltransferase is an important epigenetic enzyme that is frequently mutated in cancers, particularly in AML. The heterozygous R736H mutation in the FF-interface of the tetrameric enzyme is the second most frequently observed DNMT3A cancer mutation, but its pathogenic mechanism is unclear. We show here that R736H leads to a moderate reduction in catalytic activity of 20-40% depending on the substrate, but no changes in CpG specificity, flanking sequence preferences and subnuclear localization. Strikingly, R736H showed a very strong stimulation by DNMT3L and the R736H/DNMT3L complex was 3-fold more active than WT/DNMT3L. Similarly, formation of mixed R736H/DNMT3A WT FF-interfaces led to an increased activity. R736H/DNMT3L and mixed R736H/DNMT3A WT FF-interfaces were less stable than interfaces not involving R736H, suggesting that an increased flexibility of the mixed interfaces stimulates catalytic activity. Our data suggest that aberrant activity of DNMT3A R736H may lead to DNA hypermethylation in cancer cells which could cause changes in gene expression.