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The ZGRF1 Helicase Promotes Recombinational Repair of Replication-Blocking DNA Damage in Human Cells

André Brannvoll, Xiaoyu Xue, Youngho Kwon, Smaragdi Kompocholi, Anne Simonsen, Keerthana Stine Viswalingam, Leticia Gonzalez, Ian D. Hickson, Vibe H. Oestergaard, Hocine W Mankouri, Patrick Sung, Michael Lisby

2020Cell Reports16 citationsDOIOpen Access PDF

Abstract

Replication-blocking DNA lesions are particularly toxic to proliferating cells because they can lead to chromosome mis-segregation if not repaired prior to mitosis. In this study, we report that ZGRF1 null cells accumulate chromosome aberrations following replication perturbation and show sensitivity to two potent replication-blocking anticancer drugs: mitomycin C and camptothecin. Moreover, ZGRF1 null cells are defective in catalyzing DNA damage-induced sister chromatid exchange despite accumulating excessive FANCD2, RAD51, and γ-H2AX foci upon induction of interstrand DNA crosslinks. Consistent with a direct role in promoting recombinational DNA repair, we show that ZGRF1 is a 5'-to-3' helicase that catalyzes D-loop dissociation and Holliday junction branch migration. Moreover, ZGRF1 physically interacts with RAD51 and stimulates strand exchange catalyzed by RAD51-RAD54. On the basis of these data, we propose that ZGRF1 promotes repair of replication-blocking DNA lesions through stimulation of homologous recombination.

Topics & Concepts

HelicaseHomologous recombinationRAD51DNA repairBiologyDNA replicationDNA damageControl of chromosome duplicationCell biologyPostreplication repairReplication protein ADNAMitosisMolecular biologyGeneticsNucleotide excision repairGeneDNA-binding proteinRNATranscription factorDNA Repair MechanismsCarcinogens and Genotoxicity AssessmentMicrotubule and mitosis dynamics
The ZGRF1 Helicase Promotes Recombinational Repair of Replication-Blocking DNA Damage in Human Cells | Litcius