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精卵相互作用的机制及 IZUMO1 在融合中的作用。

The mechanism of sperm-egg interaction and the involvement of IZUMO1 in fusion.

机构信息

Research Institute for Microbial Diseases, Osaka University, Suita, Osaka 565-0871, Japan.

出版信息

Asian J Androl. 2011 Jan;13(1):81-7. doi: 10.1038/aja.2010.70. Epub 2010 Nov 8.

DOI:10.1038/aja.2010.70
PMID:21057513
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3739395/
Abstract

An average human ejaculate contains over 100 million sperm, but only a few succeed in accomplishing the journey to an egg by migration through the female reproductive tract. Among these few sperm, only one participates in fertilization. There might be an ingenious molecular mechanism to ensure that the very best sperm fertilize an egg. However, recent gene disruption experiments in mice have revealed that many factors previously described as important for fertilization are largely dispensable. One could argue that the fertilization mechanism is made robust against gene disruptions. However, this is not likely, as there are already six different gene-disrupted mouse lines (Calmegin, Adam1a, Adam2, Adam3, Ace and Pgap1), all of which result in male sterility. The sperm from these animals are known to have defective zona-binding ability and at the same time lose oviduct-migrating ability. Concerning sperm-zona binding, the widely accepted involvement of sugar moiety on zona pellucida 3 (ZP3) is indicated to be dispensable by gene disruption experiments. Thus, the landscape of the mechanism of fertilization is revolving considerably. In the sperm-egg fusion process, CD9 on egg and IZUMO1 on sperm have emerged as essential factors. This review focuses on the mechanism of fertilization elucidated by gene-manipulated animals.

摘要

人类精液中的平均精子数超过 1 亿,但只有少数精子能够通过女性生殖道的迁移成功到达卵子。在这些少数精子中,只有一个参与受精。可能有一种巧妙的分子机制可以确保最优质的精子使卵子受精。然而,最近对老鼠的基因敲除实验揭示了许多以前被描述为对受精很重要的因素在很大程度上是可有可无的。人们可能会认为受精机制对基因敲除具有很强的抵抗力。然而,这是不太可能的,因为已经有六种不同的基因敲除老鼠品系(Calmegin、Adam1a、Adam2、Adam3、Ace 和 Pgap1),它们都导致雄性不育。这些动物的精子已知具有缺陷的透明带结合能力,同时失去输卵管迁移能力。关于精子-透明带结合,基因敲除实验表明,广泛接受的糖部分对透明带 3(ZP3)的参与是可有可无的。因此,受精机制的格局正在发生重大变化。在精子-卵子融合过程中,卵子上的 CD9 和精子上的 IZUMO1 已成为必不可少的因素。这篇综述重点介绍了通过基因操作的动物阐明的受精机制。

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