MCM8IP Activates the MCM8-9 Helicase to Promote DNA Synthesis and Homologous Recombination Upon DNA Damage

Overview

Journal Nat Commun

Specialty Biology

Date 2020 Jun 13

PMID 32528060

Citations 25

Authors

Jen-Wei Huang

Ananya Acharya

Angelo Taglialatela

Tarun S Nambiar

Raquel Cuella-Martin

Giuseppe Leuzzi

Samuel B Hayward

Sarah A Joseph

Gregory J Brunette

Roopesh Anand

Rajesh K Soni

Nathan L Clark

Kara A Bernstein

Petr Cejka

Alberto Ciccia

Affiliations

Soon will be listed here.

Abstract

Homologous recombination (HR) mediates the error-free repair of DNA double-strand breaks to maintain genomic stability. Here we characterize C17orf53/MCM8IP, an OB-fold containing protein that binds ssDNA, as a DNA repair factor involved in HR. MCM8IP-deficient cells exhibit HR defects, especially in long-tract gene conversion, occurring downstream of RAD51 loading, consistent with a role for MCM8IP in HR-dependent DNA synthesis. Moreover, loss of MCM8IP confers cellular sensitivity to crosslinking agents and PARP inhibition. Importantly, we report that MCM8IP directly associates with MCM8-9, a helicase complex mutated in primary ovarian insufficiency, and RPA1. We additionally show that the interactions of MCM8IP with MCM8-9 and RPA facilitate HR and promote replication fork progression and cellular viability in response to treatment with crosslinking agents. Mechanistically, MCM8IP stimulates the helicase activity of MCM8-9. Collectively, our work identifies MCM8IP as a key regulator of MCM8-9-dependent DNA synthesis during DNA recombination and replication.

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