Tdrd3 regulates the progression of meiosis II through translational control of Emi2 mRNA in mouse oocytes

Natsumi Takei , Keisuke Sato , Yuki Takada , Rajan Iyyappan , Andrej Susor , Takehiro Yamamoto , Tomoya Kotani
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Abstract

After completion of meiosis I, the oocyte immediately enters meiosis II and forms a metaphase II (MII) spindle without an interphase, which is fundamental for generating a haploid gamete. Here, we identify tudor domain-containing protein 3 (Tdrd3) as a novel regulator of oocyte meiosis. Although early mitotic inhibitor 2 (Emi2) protein has been shown to ensure the meiosis I to II transition and the subsequent MII spindle formation by inhibiting the anaphase-promoting complex/cyclosome (APC/C), how it accumulates after meiosis I has remained unresolved. We isolated Tdrd3 as a protein binding specifically and directly to Emi2 mRNA. In GV-stage mouse oocytes, Emi2 mRNA assembled into RNA granules containing Tdrd3, while cyclin B1 mRNA, which was translated in early meiosis I, formed different granules. Knockdown of Tdrd3 attenuated Emi2 synthesis in meiosis II without affecting cyclin B1 synthesis in meiosis I. Moreover, Tdrd3-deficient oocytes entered interphase and failed to form an MII spindle after completion of meiosis I. These defects were rescued by GFP-Emi2 expressed after meiosis I. Taken together, our results demonstrate the importance of Tdrd3-mediated translational control of Emi2 mRNA, which promotes Emi2 synthesis in meiosis II, for the progression of meiosis.

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Tdrd3通过翻译控制小鼠卵母细胞中Emi2 mRNA来调节减数分裂II的进程
卵母细胞完成减数分裂I后,立即进入减数分裂II,形成没有间期的中期II纺锤体,这是产生单倍体配子的基础。在这里,我们发现tudor结构域蛋白3 (Tdrd3)是卵母细胞减数分裂的一种新的调节因子。尽管早期有丝分裂抑制剂2 (Emi2)蛋白已被证明通过抑制后期促进复合体/环体(APC/C)来确保减数分裂I向II过渡和随后的MII纺锤体形成,但它在减数分裂I后如何积累仍未解决。我们分离出Tdrd3作为一种直接与Emi2 mRNA结合的蛋白。在gv期小鼠卵母细胞中,Emi2 mRNA组装成含有Tdrd3的RNA颗粒,而在减数分裂I早期翻译的cyclin B1 mRNA则形成不同的颗粒。Tdrd3的敲低降低了减数分裂II中Emi2的合成,但不影响减数分裂i中cyclin B1的合成。此外,Tdrd3缺陷的卵母细胞在减数分裂i完成后进入间期,无法形成MII纺锤体。这些缺陷被减数分裂i后表达的GFP-Emi2所修复。综上所述,我们的研究结果证明了Tdrd3介导的Emi2 mRNA的翻译控制,促进了减数分裂II中Emi2的合成,对于减数分裂的进展的重要性。
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Table of Contents Editorial Board Extracellular matrix stiffness regulates mitochondrial dynamics through PINCH-1- and kindlin-2-mediated signalling Description, measurement, and automatic classification of the Plasmodium berghei oocyst morphology during early differentiation in vitro Tdrd3 regulates the progression of meiosis II through translational control of Emi2 mRNA in mouse oocytes
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