Arginine methylation and ubiquitylation crosstalk controls DNA end-resection and homologous recombination repair.
Cross-talk between distinct protein post-translational modifications is critical for an effective DNA damage response. Arginine methylation plays an important role in maintaining genome stability, but how this modification integrates with other enzymatic activities is largely unknown. Here, we identify the deubiquitylating enzyme USP11 as a previously uncharacterised PRMT1 substrate, and ... demonstrate that the methylation of USP11 promotes DNA end-resection and the repair of DNA double strand breaks (DSB) by homologous recombination (HR), an event that is independent from another USP11-HR activity, the deubiquitylation of PALB2. We also show that PRMT1 is a ubiquitylated protein that it is targeted for deubiquitylation by USP11, which regulates the ability of PRMT1 to bind to and methylate MRE11. Taken together, our findings reveal a specific role for USP11 during the early stages of DSB repair, which is mediated through its ability to regulate the activity of the PRMT1-MRE11 pathway.
Mesh Terms:
Arginine, Cell Line, DNA Damage, Genomic Instability, Humans, MRE11 Homologue Protein, Methylation, Protein-Arginine N-Methyltransferases, Rad51 Recombinase, Recombinational DNA Repair, Repressor Proteins, Thiolester Hydrolases, Ubiquitination
Arginine, Cell Line, DNA Damage, Genomic Instability, Humans, MRE11 Homologue Protein, Methylation, Protein-Arginine N-Methyltransferases, Rad51 Recombinase, Recombinational DNA Repair, Repressor Proteins, Thiolester Hydrolases, Ubiquitination
Nat Commun
Date: Dec. 02, 2020
PubMed ID: 34728620
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