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卵母细胞可以有效地修复 DNA 双链断裂,以恢复遗传完整性并保护后代健康。

Oocytes can efficiently repair DNA double-strand breaks to restore genetic integrity and protect offspring health.

机构信息

Ovarian Biology Laboratory, Biomedicine Discovery Institute, Monash University, Melbourne 3800, Australia.

Department of Anatomy and Developmental Biology, Monash University, Melbourne 3800, Australia.

出版信息

Proc Natl Acad Sci U S A. 2020 May 26;117(21):11513-11522. doi: 10.1073/pnas.2001124117. Epub 2020 May 7.

DOI:10.1073/pnas.2001124117
PMID:32381741
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7260990/
Abstract

Female fertility and offspring health are critically dependent on an adequate supply of high-quality oocytes, the majority of which are maintained in the ovaries in a unique state of meiotic prophase arrest. While mechanisms of DNA repair during meiotic recombination are well characterized, the same is not true for prophase-arrested oocytes. Here we show that prophase-arrested oocytes rapidly respond to γ-irradiation-induced DNA double-strand breaks by activating Ataxia Telangiectasia Mutated, phosphorylating histone H2AX, and localizing RAD51 to the sites of DNA damage. Despite mobilizing the DNA repair response, even very low levels of DNA damage result in the apoptosis of prophase-arrested oocytes. However, we show that, when apoptosis is inhibited, severe DNA damage is corrected via homologous recombination repair. The repair is sufficient to support fertility and maintain health and genetic fidelity in offspring. Thus, despite the preferential induction of apoptosis following exogenously induced genotoxic stress, prophase-arrested oocytes are highly capable of functionally efficient DNA repair. These data implicate DNA repair as a key quality control mechanism in the female germ line and a critical determinant of fertility and genetic integrity.

摘要

女性的生育能力和后代的健康都严重依赖于充足的高质量卵子供应,这些卵子中的大多数都处于减数分裂前期阻滞的独特状态而保存在卵巢中。虽然减数分裂重组过程中的 DNA 修复机制已经得到很好的描述,但处于前期阻滞的卵母细胞却并非如此。在这里,我们发现前期阻滞的卵母细胞可以迅速对 γ 射线诱导的 DNA 双链断裂做出反应,激活共济失调毛细血管扩张突变基因,磷酸化组蛋白 H2AX,并将 RAD51 定位到 DNA 损伤部位。尽管可以调动 DNA 修复反应,但即使是非常低水平的 DNA 损伤也会导致前期阻滞的卵母细胞凋亡。然而,我们发现,当抑制细胞凋亡时,严重的 DNA 损伤可以通过同源重组修复来纠正。这种修复足以支持生育能力,并维持后代的健康和遗传完整性。因此,尽管在外源性遗传毒性应激诱导下会优先诱导细胞凋亡,但前期阻滞的卵母细胞具有高度有效的功能 DNA 修复能力。这些数据表明,DNA 修复是雌性生殖系中的一个关键质量控制机制,也是生育能力和遗传完整性的关键决定因素。

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