Abstract Homologous recombination (HR), also termed homology-directed repair, is a major pathway for the repair of DNA double-strand breaks (DSBs) generated by DNA damaging agents, replication fork collapse and during meiosis. Failure to repair DSBs correctly causes genomic instability, leading to mutagenesis, and developmental defects. Moreover, defects in HR impact the response to many therapeutics. Components of the HR machinery include BRCA2 and five RAD51 paralogs, which are critical for RAD51 assembly onto single-stranded DNA, an important intermediate for homologous strand invasion. Disruption of these HR genes in mice results in embryonic lethality (pre-implantation to mid-gestation defects), developmental defects (e.g., sterility), and tumorigenesis. Recently, the Shu complex, composed of SWS1 and SWSAP1 subunits, was identified in human cells as a potential RAD51 paralog complex, since it functions with RAD51 to promote mitotic HR like its ortholog in yeast. Here, we show that the mouse Shu complex interacts with the ubiquitously expressed RAD51 recombinase and also with the meiosis-specific DMC1 recombinase. Knockout mice lacking one or both Shu complex subunits are viable and show no obvious developmental defects, except in gonads of both female and male mice, which are infertile. Analyses in males demonstrate that Shu complex is required for proper homologous synapsis and for the formation of RAD51 and DMC1 foci very early in meiotic prophase I. Our preliminary results indicate that the mouse Shu complex is also important for mitotic HR. Therefore, we propose that Shu complex ensures the assembly of RAD51 and DMC1 proteins into nucleoprotein filaments on resected DSBs to promote successful homology search and strand invasion, for completion of meiotic and mitotic recombination. Citation Format: Rohit Prakash, Carla Manuela Abreu, Scott Keeney, Maria Jasin. The RAD51 paralog complex SWS1-SWSAP1 is critical for homologous recombination in the mouse [abstract]. In: Proceedings of the AACR Special Conference on DNA Repair: Tumor Development and Therapeutic Response; 2016 Nov 2-5; Montreal, QC, Canada. Philadelphia (PA): AACR; Mol Cancer Res 2017;15(4_Suppl):Abstract nr A07.
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