Interaction of sperm with the zona pellucida during fertilization.

B M Gadella
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引用次数: 23

Abstract

In order to achieve fertilization sperm cells, first need to successfully interact with the zona pellucida. To this end, the sperm surface is extensively remodeled during capacitation and the resulting sperm cells also possess hyperactivated motility. Together, this serves to mediate optimal recognition of the zona pellucida in the oviduct or after in vitro fertilization incubations (primary zona pellucida binding). When the sperm cell attaches to the zona pellucida, it will be triggered to undergo the acrosome reaction which allows the hyperactivated motile sperm cell to drill through the zona pellucida (secondary zona pellucida binding coinciding with sequential local zona pellucida digestion and rebinding). After successful zona penetration, some sperm cells may enter the perivitelline space. This delaying strategy of the oocyte allows only one sperm cell at a given time to bind and fuse with the oocyte (fertilization) and thus minimizes the risk of polyspermy. The fertilization fusion between the oocyte and the first sperm cell is immediately followed by a polyspermic fertilization block, in which the content of the oocyte's cortical granules is released into the perivitelline space. The cortical reaction blocks further sperm-oocyte fusion either by sticking at the oolemma or by the induction of a biochemical reaction of the zona pellucida (zona pellucida hardening). The cortical reaction thus blocks sperm-zona pellucida binding and/or sperm-zona pellucida penetration. This review summarizes the current understanding of sperm-zona pellucida interactions in relation to mammalian fertilization. The lack of knowledge about sperm-zona pellucida binding in ruminants will be critically discussed.

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受精过程中精子与透明带的相互作用。
精子细胞为了实现受精,首先需要成功地与透明带相互作用。为此,精子表面在获能过程中被广泛重塑,由此产生的精子细胞也具有过度激活的运动性。总之,这有助于介导输卵管内或体外受精孵育后透明带的最佳识别(初级透明带结合)。当精细胞附着在透明带上时,会触发顶体反应,使过度激活的运动精细胞钻穿透明带(二次透明带结合与连续的局部透明带消化和再结合相一致)。成功穿透卵泡带后,一些精子细胞可能进入卵泡周间隙。卵母细胞的这种延迟策略允许在给定时间内只有一个精子细胞与卵母细胞结合并融合(受精),从而将多精子的风险降至最低。卵母细胞和第一个精子细胞之间的受精融合紧接着是多精子受精阻滞,在此过程中,卵母细胞皮质颗粒的内容物被释放到卵泡周围空间。皮质反应通过粘附在膜上或通过诱导透明带的生化反应(透明带硬化)阻止精子-卵细胞进一步融合。因此,皮质反应阻断了精子与透明带的结合和/或精子与透明带的穿透。本文综述了目前对哺乳动物受精过程中精子-透明带相互作用的认识。对反刍动物精子-透明带结合的知识的缺乏将进行批判性的讨论。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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Development of the pig placenta. Conceptus-uterus interactions in pigs: endometrial gene expression in response to estrogens and interferons from conceptuses. Temporal candidate gene expression patterns in the sow placenta during early gestation and the effect of maternal L-arginine supplementation. Genetic selection for lifetime reproductive performance. Global protein profiling of porcine cumulus cells in response to native oocyte secreted factors in vitro.
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