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BRCA1 safeguards genome integrity by activating chromosome asynapsis checkpoint to eliminate recombination-defective oocytes.

Long BaiPeng LiYu XiangXiaofei JiaoJiyuan ChenLicun SongZhongyang LiangYidan LiuYi-Min ZhuLin-Yu Lu
Published in: Proceedings of the National Academy of Sciences of the United States of America (2024)
In the meiotic prophase, programmed DNA double-strand breaks are repaired by meiotic recombination. Recombination-defective meiocytes are eliminated to preserve genome integrity in gametes. BRCA1 is a critical protein in somatic homologous recombination, but studies have suggested that BRCA1 is dispensable for meiotic recombination. Here we show that BRCA1 is essential for meiotic recombination. Interestingly, BRCA1 also has a function in eliminating recombination-defective oocytes. Brca1 knockout (KO) rescues the survival of Dmc1 KO oocytes far more efficiently than removing CHK2, a vital component of the DNA damage checkpoint in oocytes. Mechanistically, BRCA1 activates chromosome asynapsis checkpoint by promoting ATR activity at unsynapsed chromosome axes in Dmc1 KO oocytes. Moreover, Brca1 KO also rescues the survival of asynaptic Spo11 KO oocytes. Collectively, our study not only unveils an unappreciated role of chromosome asynapsis in eliminating recombination-defective oocytes but also reveals the dual functions of BRCA1 in safeguarding oocyte genome integrity.
Keyphrases
  • dna damage
  • dna repair
  • breast cancer risk
  • oxidative stress
  • copy number
  • dna damage response
  • mouse model
  • cell cycle
  • gene expression
  • cell proliferation
  • signaling pathway
  • genome wide
  • protein protein