BRCA1/BRC-1 and SMC-5/6 regulate DNA repair pathway engagement during C. elegans meiosis

Abstract

The preservation of genome integrity during sperm and egg development is vital for reproductive success. During meiosis, the tumor suppressor BRCA1/BRC-1 and structural maintenance of chromosomes 5/6 (SMC-5/6) complex genetically interact to promote high fidelity DNA double strand break (DSB) repair, but the specific DSB repair outcomes these proteins regulate remain unknown. Here we show that BRCA1/BRC-1 and the SMC-5/6 complex limit intersister crossover recombination as well as error-prone repair pathways during meiotic prophase I. Using genetic and cytological methods to monitor repair of DSBs with different repair partners in Caenorhabditis elegans, we demonstrate that both BRC-1 and SMC-5/6 repress intersister crossover recombination events, with meiotic cells becoming more dependent upon these proteins to repair DSBs in late meiotic prophase I. Sequencing of conversion tracts from homolog-independent DSB repair events indicates that BRC-1 regulates intersister/intrachromatid noncrossover conversion tract length. Moreover, we find that BRC-1 also specifically inhibits error prone repair of DSBs induced at mid-pachytene. Finally, we reveal that functional BRC-1 enhances DSB repair defects in smc-5 mutants by repressing theta-mediated end joining (TMEJ). Taken together, our study illuminates the coordinate interplay of BRC-1 and SMC-5/6 to regulate DSB repair outcomes in the germline.