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ZGRF1 promotes end resection of DNA homologous recombination via forming complex with BRCA1/EXO1

Shuang Yan, Man Song, Jie Ping, Shu-ting Lai, Xiao-yu Cao, Chenjun Bai, Da-Fei Xie, Hua Guan, Shanshan Gao, Ping‐Kun Zhou

2021Cell Death Discovery13 citationsDOIOpen Access PDF

Abstract

To maintain genomic stability, the mammalian cells has evolved a coordinated response to DNA damage, including activation of DNA repair and cell cycle checkpoint processes. Exonuclease 1 (EXO1)-dependent excision of DNA ends is important for the initiation of homologous recombination (HR) repair of DNA breaks, which is thought to play a key role in activating the ATR-CHK1 pathway to induce G2/M cell cycle arrest. But the mechanism is still not fully understood. Here, we report that ZGRF1 forms complexes with EXO1 as well as other repair proteins and promotes DNA repair through HR. ZGRF1 is recruited to DNA damage sites in a MDC1-RNF8-BRCA1 dependent manner. Furthermore, ZGRF1 is important for the recruitment of RPA2 to DNA damage sites and the following ATR-CHK1 mediated G2/M checkpoint in response to irradiation. ZGRF1 null cells show increased sensitivity to many DNA-damaging agents, especially PARPi and irradiation. Collectively,our findings identify ZGRF1 as a novel regulator of DNA end resection and G2/M checkpoint. ZGRF1 is a potential target of radiation and PARPi cancer therapy.

Topics & Concepts

Homologous recombinationDNA repairDNA damageG2-M DNA damage checkpointGenome instabilityRAD51CHEK1BiologyDNACell biologyCell cycle checkpointNon-homologous end joiningReplication protein ACell cycleMolecular biologyCancer researchGeneticsCellGeneDNA-binding proteinTranscription factorDNA Repair MechanismsPARP inhibition in cancer therapyCRISPR and Genetic Engineering
ZGRF1 promotes end resection of DNA homologous recombination via forming complex with BRCA1/EXO1 | Litcius