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Coping with DNA Double-Strand Breaks via ATM Signaling Pathway in Bovine Oocytes.


ABSTRACT: As a common injury almost all cells face, DNA damage in oocytes-especially double-strand breaks (DSBs), which occur naturally during the first meiosis phase (meiosis I) due to synaptic complex separation-affects the fertilization ability of oocytes, instead of causing cancer (as in somatic cells). The mechanism of oocytes to effectively repair DSB damage has not yet been clearly studied, especially considering medically induced DSBs superimposed on naturally occurring DSBs in meiosis I. It was found that maturation rates decreased or increased, respectively corresponding with overexpression or interference of p21 in bovine oocytes. At the same time, the maturation rate of bovine oocytes decreased with a gradual increase in Zeocin dose, and the p21 expression in those immature oocytes changed significantly with the gradual increase in Zeocin dose (same as increased DSB intensity). Same as p21, the variation trend of ATM expression was consistent with the gradual increase in Zeocin dose. Furthermore, the oocytes demonstrated tolerance to DSBs during meiosis I, while the maturation rates decreased when the damage exceeded a certain threshold; according to which, it may be that ATM regulates the p53-p21 pathway to affect the completion of meiosis. In addition, nonhomologous recombination and cumulus cells are potentially involved in the process by which oocytes respond to DSB damage.

SUBMITTER: Wang L 

PROVIDER: S-EPMC7727702 | biostudies-literature | 2020 Nov

REPOSITORIES: biostudies-literature

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Coping with DNA Double-Strand Breaks via ATM Signaling Pathway in Bovine Oocytes.

Wang Lili L   Xu Xiaolei X   Teng Mingming M   Zhao Guimin G   Lei Anmin A  

International journal of molecular sciences 20201124 23


As a common injury almost all cells face, DNA damage in oocytes-especially double-strand breaks (DSBs), which occur naturally during the first meiosis phase (meiosis I) due to synaptic complex separation-affects the fertilization ability of oocytes, instead of causing cancer (as in somatic cells). The mechanism of oocytes to effectively repair DSB damage has not yet been clearly studied, especially considering medically induced DSBs superimposed on naturally occurring DSBs in meiosis I. It was f  ...[more]

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