抑制WIP1活性可增强合子修复精子DNA损伤的能力。

The Capacity to Repair Sperm DNA Damage in Zygotes is Enhanced by Inhibiting WIP1 Activity.

作者信息

Leem Jiyeon, Bai Guang-Yu, Oh Jeong Su

机构信息

Department of Integrative Biotechnology, Sungkyunkwan University, Suwon, South Korea.

Biomedical Institute for Convergence at SKKU (BICS), Sungkyunkwan University, Suwon, South Korea.

出版信息

Front Cell Dev Biol. 2022 Apr 5;10:841327. doi: 10.3389/fcell.2022.841327. eCollection 2022.

DOI:10.3389/fcell.2022.841327

PMID:35478962

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9037036/

Abstract

Maintaining genome integrity in germ cells is essential not only for successful fertilization and embryo development, but also to ensure proper transmission of genetic information across generations. However, unlike oocytes, sperm are incapable of repairing DNA damage. Therefore, sperm DNA damage is repaired after fertilization in zygotes using maternal DNA repair factors. In this study, we found that zygotic repair of paternal DNA damage is enhanced by inhibiting WIP1 activity. Oxidative stress induced DNA damage in sperm and severely impaired motility. Although DNA damage in sperm did not compromise fertilization, it increased DNA damage in the paternal pronucleus of zygotes. However, WIP1 inhibition during fertilization reduced DNA damage in the paternal pronucleus, improving the rate of two-cell development, and subsequent zygotic genome activation. Therefore, our results suggest that WIP1 inhibition could enhance maternal DNA repair capacity and thereby decrease paternal DNA damage in zygotes.

摘要

维持生殖细胞中的基因组完整性不仅对成功受精和胚胎发育至关重要，而且对于确保遗传信息在世代间的正确传递也必不可少。然而，与卵母细胞不同，精子无法修复DNA损伤。因此，精子DNA损伤在受精后利用母体DNA修复因子在合子中进行修复。在本研究中，我们发现通过抑制WIP1活性可增强父本DNA损伤的合子修复。氧化应激诱导精子中的DNA损伤并严重损害其活力。尽管精子中的DNA损伤并未影响受精，但它增加了合子父本原核中的DNA损伤。然而，受精期间抑制WIP1可减少父本原核中的DNA损伤，提高二细胞发育率以及随后的合子基因组激活。因此，我们的结果表明，抑制WIP1可增强母体DNA修复能力，从而减少合子中父本DNA损伤。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cf93/9037036/581e67827fc6/fcell-10-841327-g001.jpg

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抑制WIP1活性可增强合子修复精子DNA损伤的能力。

The Capacity to Repair Sperm DNA Damage in Zygotes is Enhanced by Inhibiting WIP1 Activity.

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