The changes of DNA double-strand breaks and DNA repair during ovarian reserve formation in mice

DNA double-strand break (DSB) repair is crucial to maintain genomic stability for sufficient ovarian reserve. It remains unknown the changes of DSBs formation and DNA repair in germ cells during ovarian reserve formation in FVB/N mice. We demonstrated germ cell numbers increased significantly (all P < 0.05) from E11.5 to E13.5 and decreased significantly (all P> 0.05) until P2. OCT4 and SOX2 analyses indicated pluripotency peaks at E13.5 then decreases significantly (all P 0.05) until P2. γH2AX analyses revealed DSB formation significantly (P < 0.05) increased from E13.5 until P2. RAD51 and DMC1 data revealed homologous recombination (HR) pathway repair of DSBs is persistent active during meiosis (E13.5- P2) (all P> 0.05). 53BP1 and KU70 data indicate the non-homologous end-joining pathway (NHEJ) remains active during meiosis. 53BP1 expression was highest at E13.5 (P < 0.05). KU70 expression was higher in germ cells from E15.5 to P2 (all < P 0.05). PH3 and KI67 analyses revealed germ cell proliferation was not significantly different (all P> 0.05) from E13.5 to P2. Caspase-3 and TUNEL analyses showed germ cells apoptosis was not significantly different (all P > 0.05) from E13.5 to P2. In conclusion, we found both germ cell number and pluripotency peak at E13.5 and decline during meiosis. We demonstrated HR and NHEJ continually repair DSBs during meiosis. RAD51 and DMC1 are continuously expressed during meiosis. 53BP1 is mainly expressed at E13.5. KU70 continually functions from E15.5 to P2. Proliferating and apoptotic cells were rarely detected during meiosis. Results provide a basis for further study of how DSBs and DNA repair affect germ cell development.