Multiple roles of endocytosis and autophagy in intracellular remodeling during oocyte-to-embryo transition.

IF 4.4 3区 综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES
Ken Sato
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引用次数: 2

Abstract

Fertilization is the starting point for creating new progeny. At this time, the highly differentiated oocyte and sperm fuse to form one zygote, which is then converted into a pluripotent early embryo. Recent studies have shown that the lysosomal degradation system via autophagy and endocytosis plays important roles in the remodeling of intracellular components during oocyte-to-embryo transition. For example, in Caenorhabditis elegans, zygotes show high endocytic activity, and some populations of maternal membrane proteins are selectively internalized and delivered to lysosomes for degradation. Furthermore, fertilization triggers selective autophagy of sperm-derived paternal mitochondria, which establishes maternal inheritance of mitochondrial DNA. In addition, it has been shown that autophagy via liquid-liquid phase separation results in the selective degradation of some germ granule components, which are distributed to somatic cells of early embryos. This review outlines the physiological functions of the lysosomal degradation system and its molecular mechanisms in C. elegans and mouse embryos.

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卵母细胞向胚胎转变过程中,胞内吞噬和自噬在细胞内重塑中的多重作用。
受精是创造新后代的起点。在这个时候,高度分化的卵母细胞和精子融合形成一个受精卵,然后转化成一个多能的早期胚胎。最近的研究表明,通过自噬和内吞作用的溶酶体降解系统在卵母细胞向胚胎转变过程中细胞内成分的重塑中起着重要作用。例如,在秀丽隐杆线虫中,受精卵表现出高的内吞活性,并且一些母体膜蛋白群体被选择性地内化并传递给溶酶体进行降解。此外,受精触发精子来源的父系线粒体的选择性自噬,从而建立了线粒体DNA的母系遗传。此外,已有研究表明,通过液-液相分离的自噬导致一些胚粒成分的选择性降解,这些成分分布到早期胚胎的体细胞中。本文综述了线虫和小鼠胚胎中溶酶体降解系统的生理功能及其分子机制。
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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来源期刊
CiteScore
6.60
自引率
0.00%
发文量
26
审稿时长
>12 weeks
期刊介绍: The Proceedings of the Japan Academy Ser. B (PJA-B) is a scientific publication of the Japan Academy with a 90-year history, and covers all branches of natural sciences, except for mathematics, which is covered by the PJA-A. It is published ten times a year and is distributed widely throughout the world and can be read and obtained free of charge through the world wide web.
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