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Preferential CEBP binding to T:G mismatches and increased C-to-T human somatic mutations

Jie Yang, J.R. Horton, Kadir C. Akdemir, Jia Li, Yun Huang, Janani Kumar, Robert Blumenthal, Xing Zhang, Xiaodong Cheng

2021Nucleic Acids Research19 citationsDOIOpen Access PDF

Abstract

DNA cytosine methylation in mammals modulates gene expression and chromatin accessibility. It also impacts mutation rates, via spontaneous oxidative deamination of 5-methylcytosine (5mC) to thymine. In most cases the resulting T:G mismatches are repaired, following T excision by one of the thymine DNA glycosylases, TDG or MBD4. We found that C-to-T mutations are enriched in the binding sites of CCAAT/enhancer binding proteins (CEBP). Within a CEBP site, the presence of a T:G mismatch increased CEBPβ binding affinity by a factor of >60 relative to the normal C:G base pair. This enhanced binding to a mismatch inhibits its repair by both TDG and MBD4 in vitro. Furthermore, repair of the deamination product of unmethylated cytosine, which yields a U:G DNA mismatch that is normally repaired via uracil DNA glycosylase, is also inhibited by CEBPβ binding. Passage of a replication fork over either a T:G or U:G mismatch, before repair can occur, results in a C-to-T mutation in one of the daughter duplexes. Our study thus provides a plausible mechanism for accumulation of C-to-T human somatic mutations.

Topics & Concepts

BiologySomatic cellMutationGeneticsMolecular biologyGeneCancer Genomics and DiagnosticsGenetic factors in colorectal cancerEpigenetics and DNA Methylation