Aging and oocyte competence: A molecular cell perspective.

IF 4.6 3区 医学 Q2 MEDICINE, RESEARCH & EXPERIMENTAL
WIREs Mechanisms of Disease Pub Date : 2023-09-01 Epub Date: 2023-05-29 DOI:10.1002/wsbm.1613
Ana Filipa Ferreira, Maria Soares, Teresa Almeida-Santos, João Ramalho-Santos, Ana Paula Sousa
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引用次数: 1

Abstract

Follicular microenvironment is paramount in the acquisition of oocyte competence, which is dependent on two interconnected and interdependent processes: nuclear and cytoplasmic maturation. Extensive research conducted in human and model systems has provided evidence that those processes are disturbed with female aging. In fact, advanced maternal age (AMA) is associated with a lower chance of pregnancy and live birth, explained by the age-related decline in oocyte quality/competence. This decline has largely been attributed to mitochondria, essential for oocyte maturation, fertilization, and embryo development; with mitochondrial dysfunction leading to oxidative stress, responsible for nuclear and mitochondrial damage, suboptimal intracellular energy levels, calcium disturbance, and meiotic spindle alterations, that may result in oocyte aneuploidy. Nuclear-related mechanisms that justify increased oocyte aneuploidy include deoxyribonucleic acid (DNA) damage, loss of chromosomal cohesion, spindle assembly checkpoint dysfunction, meiotic recombination errors, and telomere attrition. On the other hand, age-dependent cytoplasmic maturation failure is related to mitochondrial dysfunction, altered mitochondrial biogenesis, altered mitochondrial morphology, distribution, activity, and dynamics, dysmorphic smooth endoplasmic reticulum and calcium disturbance, and alterations in the cytoskeleton. Furthermore, reproductive somatic cells also experience the effects of aging, including mitochondrial dysfunction and DNA damage, compromising the crosstalk between granulosa/cumulus cells and oocytes, also affected by a loss of gap junctions. Old oocytes seem therefore to mature in an altered microenvironment, with changes in metabolites, ribonucleic acid (RNA), proteins, and lipids. Overall, understanding the mechanisms implicated in the loss of oocyte quality will allow the establishment of emerging biomarkers and potential therapeutic anti-aging strategies. This article is categorized under: Reproductive System Diseases > Molecular and Cellular Physiology.

衰老与卵母细胞能力:分子细胞视角。
卵泡微环境在获得卵母细胞能力方面至关重要,这取决于两个相互关联和相互依存的过程:细胞核和细胞质成熟。在人类和模型系统中进行的广泛研究提供了证据,证明这些过程会随着女性衰老而受到干扰。事实上,高龄产妇(AMA)与较低的怀孕和活产几率有关,这可以通过与年龄相关的卵母细胞质量/能力下降来解释。这种下降主要归因于线粒体,线粒体对卵母细胞成熟、受精和胚胎发育至关重要;线粒体功能障碍导致氧化应激,导致细胞核和线粒体损伤、细胞内能量水平不理想、钙紊乱和减数分裂纺锤体改变,这可能导致卵母细胞非整倍体。证明卵母细胞非整倍性增加的核相关机制包括脱氧核糖核酸(DNA)损伤、染色体凝聚力丧失、纺锤体组装检查点功能障碍、减数分裂重组错误和端粒损耗。另一方面,年龄依赖性细胞质成熟失败与线粒体功能障碍、线粒体生物发生改变、线粒体形态、分布、活性和动力学改变、滑面内质网变形和钙紊乱以及细胞骨架改变有关。此外,生殖体细胞也会受到衰老的影响,包括线粒体功能障碍和DNA损伤,损害颗粒/卵丘细胞和卵母细胞之间的串扰,也受到间隙连接缺失的影响。因此,老卵母细胞似乎在改变的微环境中成熟,代谢产物、核糖核酸(RNA)、蛋白质和脂质发生变化。总的来说,了解卵母细胞质量下降的机制将有助于建立新的生物标志物和潜在的抗衰老治疗策略。本文分类在:生殖系统疾病>分子和细胞生理学。
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
WIREs Mechanisms of Disease
WIREs Mechanisms of Disease MEDICINE, RESEARCH & EXPERIMENTAL-
CiteScore
11.40
自引率
0.00%
发文量
45
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