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卵巢中的生物力学和机械信号转导:系统综述。

Biomechanics and mechanical signaling in the ovary: a systematic review.

机构信息

Department of Obstetrics, Gynecology, and Reproductive Sciences, University of Texas at Houston Health Science Center, Houston, TX, USA.

Jones Institute for Reproductive Medicine, Eastern Virginia Medical School, Norfolk, VA, USA.

出版信息

J Assist Reprod Genet. 2018 Jul;35(7):1135-1148. doi: 10.1007/s10815-018-1180-y. Epub 2018 Apr 24.

Abstract

PURPOSE

Mammalian oogenesis and folliculogenesis share a dynamic connection that is critical for gamete development. For maintenance of quiescence or follicular activation, follicles must respond to soluble signals (growth factors and hormones) and physical stresses, including mechanical forces and osmotic shifts. Likewise, mechanical processes are involved in cortical tension and cell polarity in oocytes. Our objective was to examine the contribution and influence of biomechanical signaling in female mammalian gametogenesis.

METHODS

We performed a systematic review to assess and summarize the effects of mechanical signaling and mechanotransduction in oocyte maturation and folliculogenesis and to explore possible clinical applications. The review identified 2568 publications of which 122 met the inclusion criteria.

RESULTS

The integration of mechanical and cell signaling pathways in gametogenesis is complex. Follicular activation or quiescence are influenced by mechanical signaling through the Hippo and Akt pathways involving the yes-associated protein (YAP), transcriptional coactivator with PDZ-binding motif (TAZ), phosphatase and tensin homolog deleted from chromosome 10 (PTEN) gene, the mammalian target of rapamycin (mTOR), and forkhead box O3 (FOXO3) gene.

CONCLUSIONS

There is overwhelming evidence that mechanical signaling plays a crucial role in development of the ovary, follicle, and oocyte throughout gametogenesis. Emerging data suggest the complexities of mechanotransduction and the biomechanics of oocytes and follicles are integral to understanding of primary ovarian insufficiency, ovarian aging, polycystic ovary syndrome, and applications of fertility preservation.

摘要

目的

哺乳动物卵母细胞发生和卵泡发生共享一个动态连接,这对配子发育至关重要。为了维持静止或卵泡激活,卵泡必须对可溶性信号(生长因子和激素)和物理应激(包括机械力和渗透压变化)作出反应。同样,机械过程也参与卵母细胞的皮质张力和细胞极性。我们的目的是研究雌性哺乳动物配子发生中生物力学信号的贡献和影响。

方法

我们进行了系统评价,以评估和总结机械信号和机械转导在卵母细胞成熟和卵泡发生中的作用,并探讨可能的临床应用。该综述共确定了 2568 篇文献,其中 122 篇符合纳入标准。

结果

机械和细胞信号通路在配子发生中的整合是复杂的。卵泡的激活或静止受 Hippo 和 Akt 通路中的机械信号的影响,该通路涉及 yes 相关蛋白(YAP)、含 PDZ 结合基序的转录共激活因子(TAZ)、染色体 10 缺失的磷酸酶和张力蛋白同源物(PTEN)基因、雷帕霉素靶蛋白(mTOR)和叉头框 O3(FOXO3)基因。

结论

有大量证据表明,机械信号在整个配子发生过程中对卵巢、卵泡和卵母细胞的发育起着至关重要的作用。新出现的数据表明,机械转导的复杂性和卵母细胞和卵泡的生物力学是理解原发性卵巢功能不全、卵巢衰老、多囊卵巢综合征以及生育力保存应用的关键。

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