子宫容受性、胚胎黏附与胚胎侵入：胚胎着床的多步骤过程

Uterine receptivity, embryo attachment, and embryo invasion: Multistep processes in embryo implantation.

作者信息

Fukui Yamato, Hirota Yasushi, Matsuo Mitsunori, Gebril Mona, Akaeda Shun, Hiraoka Takehiro, Osuga Yutaka

机构信息

Department of Obstetrics and Gynecology, Graduate School of Medicine The University of Tokyo Tokyo Japan.

出版信息

Reprod Med Biol. 2019 May 24;18(3):234-240. doi: 10.1002/rmb2.12280. eCollection 2019 Jul.

DOI:10.1002/rmb2.12280

PMID:31312101

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6613011/

Abstract

BACKGROUND

Recurrent implantation failure is a critical issue in IVF-ET treatment. Successful embryo implantation needs appropriate molecular and cellular communications between embryo and uterus. Rodent models have been used intensively to understand these mechanisms.

METHODS

The molecular and cellular mechanisms of embryo implantation were described by referring to the previous literature investigated by us and others. The studies using mouse models of embryo implantation were mainly cited.

RESULTS

Progesterone (P) produced by ovarian corpus luteum provides the uterus with receptivity to the embryo, and uterine epithelial growth arrest and stromal proliferation, what we call uterine proliferation-differentiation switching (PDS), take place in the peri-implantation period before embryo attachment. Uterine PDS is a hallmark of uterine receptivity, and several genes such as HAND2 and BMI1, control uterine PDS by modulating P-PR signaling. As the next implantation process, embryo attachment onto the luminal epithelium occurs. This process is regulated by FOXA2-LIF pathway and planar cell polarity signaling. Then, the luminal epithelium at the embryo attachment site detaches from the stroma, which enables trophoblast invasion. This process of embryo invasion is regulated by HIF2α in the stroma.

CONCLUSION

These findings indicate that embryo implantation contains multistep processes regulated by specific molecular pathways.

摘要

背景

反复种植失败是体外受精-胚胎移植（IVF-ET）治疗中的一个关键问题。成功的胚胎着床需要胚胎与子宫之间进行适当的分子和细胞通讯。啮齿动物模型已被广泛用于了解这些机制。

方法

通过参考我们和其他人之前的研究文献来描述胚胎着床的分子和细胞机制。主要引用了使用小鼠胚胎着床模型的研究。

结果

卵巢黄体产生的孕酮（P）使子宫具备接受胚胎的能力，子宫上皮生长停滞和基质增殖，即我们所说的子宫增殖-分化转换（PDS），在胚胎附着前的着床期发生。子宫PDS是子宫接受性的一个标志，HAND2和BMI1等几个基因通过调节P-PR信号来控制子宫PDS。作为接下来的着床过程，胚胎附着在腔上皮上。这个过程由FOXA2-LIF途径和平面细胞极性信号调节。然后，胚胎附着部位的腔上皮与基质分离，这使得滋养层能够侵入。胚胎侵入的这个过程由基质中的HIF2α调节。

结论

这些发现表明胚胎着床包含由特定分子途径调节的多步骤过程。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6a8f/6613011/b39e117a9d04/RMB2-18-234-g001.jpg

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Nuclear Shp2 directs normal embryo implantation via facilitating the ERα tyrosine phosphorylation by the Src kinase.细胞核中的Shp2通过促进Src激酶介导的雌激素受体α（ERα）酪氨酸磷酸化来指导正常的胚胎着床。

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子宫容受性、胚胎黏附与胚胎侵入：胚胎着床的多步骤过程

Uterine receptivity, embryo attachment, and embryo invasion: Multistep processes in embryo implantation.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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