Differential ETS1 Binding to T:G Mismatches Within a CpG Dinucleotide Contributes to C-to-T Somatic Mutation Rate of the IDH2 Hotspot at Codon Arg140

Overview

Journal DNA Repair (Amst)

Publisher Elsevier

Specialties Biochemistry
Molecular Biology

Date 2022 Mar 7

PMID 35255310

Authors

Jie Yang

Esha Gupta

John R Horton

Robert M Blumenthal

Xing Zhang

Xiaodong Cheng

Affiliations

Soon will be listed here.

Abstract

Cytosine to thymine (C>T) somatic mutation is highly enriched in certain types of cancer, and most commonly occurs via deamination of a 5-methylcytosine (5mC) to thymine, in the context of a CpG dinucleotide. In theory, deamination should occur at equal rates to both 5mC nucleotides on opposite strands. In most cases, the resulting T:G or G:T mismatch can be repaired by thymine DNA glycosylase activities. However, while some hotspot-associated CpG mutations have approximately equal numbers of mutations that resulted either from C>T or G>A in a CpG dinucleotide, many showed strand bias, being skewed toward C>T of the first base pair or G>A of the second base pair. Using the IDH2 Arg140 codon as a case study, we show that the two possible T:G mismatches at the codon-specific CpG site have differing effects on transcription factor ETS1 binding affinity, differentially affecting access of a repair enzyme (MBD4) to the deamination-caused T:G mismatch. Our study thus provides a plausible mechanism for exclusion of repair enzymes by the differential binding of transcription factors affecting the rate at which the antecedent opposite-strand mutations occur.

Citing Articles

Mediating and maintaining methylation while minimizing mutation: Recent advances on mammalian DNA methyltransferases.

Cheng X, Blumenthal R Curr Opin Struct Biol. 2022; 75:102433.

PMID: 35914495 PMC: 9620438. DOI: 10.1016/j.sbi.2022.102433.

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