Jieun Oh scite author profile

DNA mismatch repair (MMR) is essential for maintaining genome integrity with its deficiency predisposing to cancer1. MMR is well known for its role in the post-replicative repair of mismatched base pairs that escape proofreading by DNA polymerases following cell division2. Yet, cancer genome sequencing has revealed that MMR deficient cancers not only have high mutation burden but also harbour multiple mutational signatures3, suggesting that MMR has pleotropic effects on DNA repair. The mechanisms underlying these mutational signatures have remained unclear despite studies using a range of in vitro4,5 and in vivo6 models of MMR deficiency. Here, using mutation data from cancer genomes, we identify a previously unknown function of MMR, showing that the loss of non-canonical replication-independent MMR activity is a major mutational process in human cancers. MMR is comprised of the MutSα (MSH2/MSH6) and MutLα (MLH1/PMS2) complexes7. Cancers with deficiency of MutSα exhibit mutational signature contributions distinct from those deficient of MutLα. This disparity is attributed to mutations arising from the unrepaired deamination of 5-methylcytosine (5mC), i.e. methylation damage, as opposed to replicative errors by DNA polymerases induced mismatches. Repair of methylation damage is strongly associated with H3K36me3 chromatin but independent of binding of MBD4, a DNA glycosylase that recognise 5mC and can repair methylation damage. As H3K36me3 recruits MutSα, our results suggest that MutSα is the essential factor in mediating the repair of methylation damage. Cell line models of MMR deficiency display little evidence of 5mC deamination-induced mutations as their rapid rate of proliferation limits for the opportunity for methylation damage. We thus uncover a non-canonical role of MMR in the protection against methylation damage in non-dividing cells.

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Jieun Oh

Deficiency of replication-independent DNA mismatch repair drives a 5-methylcytosine deamination mutational signature in cancer

Deficiency in DNA mismatch repair of methylation damage is a major mutational process in cancer

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