MEIKIN expression and its C-terminal phosphorylation by PLK1 is closely related the metaphase-anaphase transition by affecting cyclin B1 and Securin stabilization in meiotic oocyte.

IF 2.1 4区 生物学 Q4 CELL BIOLOGY Histochemistry and Cell Biology Pub Date : 2024-12-01 Epub Date: 2024-08-02 DOI:10.1007/s00418-024-02316-7
Li-Hua Fan, Shu-Tao Qi, Zhen-Bo Wang, Ying-Chun Ouyang, Wen-Long Lei, Yue Wang, Ang Li, Feng Wang, Jian Li, Li Li, Yuan-Yuan Li, Yi Hou, Heide Schatten, Wei-Hua Wang, Qing-Yuan Sun, Xiang-Hong Ou
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Abstract

Oocyte meiotic maturation failure and chromosome abnormality is one of the main causes of infertility, abortion, and diseases. The mono-orientation of sister chromatids during the first meiosis is important for ensuring accurate chromosome segregation in oocytes. MEIKIN is a germ cell-specific protein that can regulate the mono-orientation of sister chromatids and the protection of the centromeric cohesin complex during meiosis I. Here we found that MEIKIN is a maternal protein that was highly expressed in mouse oocytes before the metaphase I (MI) stage, but became degraded by the MII stage and dramatically reduced after fertilization. Strikingly, MEIKIN underwent phosphorylation modification after germinal vesicle breakdown (GVBD), indicating its possible function in subsequent cellular event regulation. We further showed that MEIKIN phosphorylation was mediated by PLK1 at its carboxyl terminal region and its C-terminus was its key functional domain. To clarify the biological significance of meikin degradation during later stages of oocyte maturation, exogenous expression of MEIKIN was employed, which showed that suppression of MEIKIN degradation resulted in chromosome misalignment, cyclin B1 and Securin degradation failure, and MI arrest through a spindle assembly checkpoint (SAC)-independent mechanism. Exogenous expression of MEIKIN also inhibited metaphase II (MII) exit and early embryo development. These results indicate that proper MEIKIN expression level and its C-terminal phosphorylation by PLK1 are critical for regulating the metaphase-anaphase transition in meiotic oocyte. The findings of this study are important for understanding the regulation of chromosome segregation and the prevention meiotic abnormality.

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通过影响减数分裂卵母细胞中细胞周期蛋白B1和Securin的稳定,MEIKIN的表达及其C端被PLK1磷酸化与分裂期-无丝分裂过渡期密切相关。
卵母细胞减数分裂成熟失败和染色体异常是导致不孕、流产和疾病的主要原因之一。在第一次减数分裂过程中,姐妹染色单体的单定向对于确保卵母细胞中染色体的准确分离非常重要。我们在这里发现,MEIKIN是一种母体蛋白,在小鼠卵母细胞的成熟分裂I期(MI)前高表达,但在MII期时降解,受精后则急剧减少。引人注目的是,MEIKIN在生殖囊破裂(GVBD)后发生了磷酸化修饰,这表明它可能在随后的细胞事件调控中发挥作用。我们进一步发现,MEIKIN的磷酸化是由PLK1在其羧基末端区域介导的,而其C端是其关键的功能域。为了明确MEIKIN降解在卵母细胞成熟后期的生物学意义,我们采用了外源表达MEIKIN的方法,结果表明抑制MEIKIN降解会导致染色体错位、细胞周期蛋白B1和Securin降解失败,并通过纺锤体组装检查点(SAC)依赖机制导致MI停滞。MEIKIN的外源表达也抑制了分裂后期II(MII)的退出和早期胚胎的发育。这些结果表明,适当的MEIKIN表达水平及其C-末端被PLK1磷酸化对调节减数分裂卵母细胞的无丝分裂期转变至关重要。该研究结果对理解染色体分离的调控和预防减数分裂异常具有重要意义。
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来源期刊
Histochemistry and Cell Biology
Histochemistry and Cell Biology 生物-细胞生物学
CiteScore
4.90
自引率
8.70%
发文量
112
审稿时长
1 months
期刊介绍: Histochemistry and Cell Biology is devoted to the field of molecular histology and cell biology, publishing original articles dealing with the localization and identification of molecular components, metabolic activities and cell biological aspects of cells and tissues. Coverage extends to the development, application, and/or evaluation of methods and probes that can be used in the entire area of histochemistry and cell biology.
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