Mlh1 heterozygosity and promoter methylation associates with microsatellite instability in mouse sperm.

Kul S Shrestha, Minna M Tuominen, Liisa Kauppi

Mutagenesis 2021 Jul 07

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DNA mismatch repair (MMR) proteins play an important role in maintaining genome stability, both in somatic and in germline cells. Loss of MLH1, a central MMR protein, leads to infertility and to microsatellite instability (MSI) in spermatocytes, however, the effect of Mlh1 heterozygosity on germline genome stability remains unexplored. To test the effect of Mlh1 heterozygosity on MSI in mature sperm, we combined mouse genetics with single-molecule PCR that detects allelic changes at unstable microsatellites. We discovered 4.5% and 5.9% MSI in sperm of 4- and 12-month-old Mlh1+/- mice, respectively, and that Mlh1 promoter methylation in Mlh1+/- sperm correlated with higher MSI. No such elevated MSI was seen in non-proliferating somatic cells. Additionally, we show contrasting dynamics of deletions versus insertions at unstable microsatellites (mononucleotide repeats) in sperm. © The Author(s) 2021. Published by Oxford University Press on behalf of the UK Environmental Mutagen Society.

Citation

Kul S Shrestha, Minna M Tuominen, Liisa Kauppi. Mlh1 heterozygosity and promoter methylation associates with microsatellite instability in mouse sperm. Mutagenesis. 2021 Jul 07;36(3):237-244