Kit对卵母细胞重新激活的调控

Control of Oocyte Reawakening by Kit.

作者信息

Saatcioglu Hatice Duygu, Cuevas Ileana, Castrillon Diego H

机构信息

Department of Pathology and Cecil H. and Ida Green Center for Reproductive Biology Sciences, UT Southwestern Medical Center, Dallas, Texas, United States of America.

出版信息

PLoS Genet. 2016 Aug 8;12(8):e1006215. doi: 10.1371/journal.pgen.1006215. eCollection 2016 Aug.

DOI:10.1371/journal.pgen.1006215

PMID:27500836

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4976968/

Abstract

In mammals, females are born with finite numbers of oocytes stockpiled as primordial follicles. Oocytes are "reawakened" via an ovarian-intrinsic process that initiates their growth. The forkhead transcription factor Foxo3 controls reawakening downstream of PI3K-AKT signaling. However, the identity of the presumptive upstream cell surface receptor controlling the PI3K-AKT-Foxo3 axis has been questioned. Here we show that the receptor tyrosine kinase Kit controls reawakening. Oocyte-specific expression of a novel constitutively-active KitD818V allele resulted in female sterility and ovarian failure due to global oocyte reawakening. To confirm this result, we engineered a novel loss-of-function allele, KitL. Kit inactivation within oocytes also led to premature ovarian failure, albeit via a contrasting phenotype. Despite normal initial complements of primordial follicles, oocytes remained dormant with arrested oocyte maturation. Foxo3 protein localization in the nucleus versus cytoplasm explained both mutant phenotypes. These genetic studies provide formal genetic proof that Kit controls oocyte reawakening, focusing future investigations into the causes of primary ovarian insufficiency and ovarian aging.

摘要

在哺乳动物中，雌性出生时带有有限数量的作为原始卵泡储存的卵母细胞。卵母细胞通过启动其生长的卵巢内在过程被“唤醒”。叉头转录因子Foxo3在PI3K - AKT信号下游控制卵母细胞的唤醒。然而，控制PI3K - AKT - Foxo3轴的假定上游细胞表面受体的身份一直受到质疑。在这里，我们表明受体酪氨酸激酶Kit控制卵母细胞的唤醒。一种新型组成型活性KitD818V等位基因的卵母细胞特异性表达导致雌性不育和卵巢衰竭，原因是整体卵母细胞的唤醒。为了证实这一结果，我们设计了一种新型功能丧失等位基因KitL。卵母细胞内的Kit失活也导致卵巢早衰，尽管是通过相反的表型。尽管原始卵泡的初始数量正常，但卵母细胞仍处于休眠状态，卵母细胞成熟停滞。Foxo3蛋白在细胞核与细胞质中的定位解释了这两种突变表型。这些遗传学研究提供了正式的遗传学证据，证明Kit控制卵母细胞的唤醒，为未来对原发性卵巢功能不全和卵巢衰老原因的研究指明了方向。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fc55/4976968/a822417c0809/pgen.1006215.g001.jpg

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Kit对卵母细胞重新激活的调控

Control of Oocyte Reawakening by Kit.

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