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Increased DNA damage in full-grown oocytes is correlated with diminished autophagy activation

自噬 DNA损伤 DNA 细胞生物学 化学 生物 遗传学 细胞凋亡
作者
Fei Sun,Nourhan Nashat Ali,Daniela Londoño-Vásquez,Constantine A. Simintiras,Huanyu Qiao,M. S. Ortega,Yüksel Ağca,Masashi Takahashi,Rocío Melissa Rivera,Andrew M. Kelleher,Peter Šutovský,Amanda L. Patterson,Ahmed Z. Balboula
出处
期刊:Nature Communications [Nature Portfolio]
卷期号:15 (1)
标识
DOI:10.1038/s41467-024-53559-w
摘要

Unlike mild DNA damage exposure, DNA damage repair (DDR) is reported to be ineffective in full-grown mammalian oocytes exposed to moderate or severe DNA damage. The underlying mechanisms of this weakened DDR are unknown. Here, we show that moderate DNA damage in full-grown oocytes leads to aneuploidy. Our data reveal that DNA-damaged oocytes have an altered, closed, chromatin state, and suggest that the failure to repair damaged DNA could be due to the inability of DDR proteins to access damaged loci. Our data also demonstrate that, unlike somatic cells, mouse and porcine oocytes fail to activate autophagy in response to DNA double-strand break-inducing treatment, which we suggest may be the cause of the altered chromatin conformation and inefficient DDR. Importantly, autophagy activity is further reduced in maternally aged oocytes (which harbor severe DNA damage), and its induction is correlated with reduced DNA damage in maternally aged oocytes. Our findings provide evidence that reduced autophagy activation contributes to weakened DDR in oocytes, especially in those from aged females, offering new possibilities to improve assisted reproductive therapy in women with compromised oocyte quality.

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