Litcius/Paper detail

XRCC1 promotes replication restart, nascent fork degradation and mutagenic DNA repair in BRCA2-deficient cells

Bradley Eckelmann, Albino Bacolla, Haibo Wang, Zu Ye, Erika N. Guerrero, Wei Jiang, Randa El‐Zein, Muralidhar L. Hegde, Alan E. Tomkinson, John A. Tainer, Sankar Mitra

2020NAR Cancer50 citationsDOIOpen Access PDF

Abstract

Abstract Homologous recombination/end joining (HR/HEJ)-deficient cancers with BRCA mutations utilize alternative DNA double-strand break repair pathways, particularly alternative non-homologous end joining or microhomology-mediated end joining (alt-EJ/MMEJ) during S and G2 cell cycle phases. Depletion of alt-EJ factors, including XRCC1, PARP1 and POLQ, is synthetically lethal with BRCA2 deficiency; yet, XRCC1 roles in HR-deficient cancers and replication stress are enigmatic. Here, we show that after replication stress, XRCC1 forms an active repair complex with POLQ and MRE11 that supports alt-EJ activity in vitro. BRCA2 limits XRCC1 recruitment and repair complex formation to suppress alt-EJ at stalled forks. Without BRCA2 fork protection, XRCC1 enables cells to complete DNA replication at the expense of increased genome instability by promoting MRE11-dependent fork resection and restart. High XRCC1 and MRE11 gene expression negatively impacts Kaplan–Meier survival curves and hazard ratios for HR-deficient breast cancer patients in The Cancer Genome Atlas. The additive effects of depleting both BRCA2 and XRCC1 indicate distinct pathways for replication restart. Our collective data show that XRCC1-mediated processing contributes to replication fork degradation, replication restart and chromosome aberrations in BRCA2-deficient cells, uncovering new roles of XRCC1 and microhomology-mediated repair mechanisms in HR-deficient cancers, with implications for chemotherapeutic strategies targeting POLQ and PARP activities.

Topics & Concepts

XRCC1BiologyDNA repairPARP1Genome instabilityHomologous recombinationDNA replicationGeneticsDNA damageCell biologyCancer researchPoly ADP ribose polymeraseDNAGenePolymeraseGenotypeSingle-nucleotide polymorphismDNA Repair MechanismsPARP inhibition in cancer therapyCRISPR and Genetic Engineering