Rejuvenation of aged oocyte through exposure to young follicular microenvironment

IF 17 Q1 CELL BIOLOGY Nature aging Pub Date : 2024-09-09 DOI:10.1038/s43587-024-00697-x
HaiYang Wang, Zhongwei Huang, Xingyu Shen, Yaelim Lee, XinJie Song, Chang Shu, Lik Hang Wu, Leroy Sivappiragasam Pakkiri, Poh Leong Lim, Xi Zhang, Chester Lee Drum, Jin Zhu, Rong Li
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Abstract

Reproductive aging is a major cause of fertility decline, attributed to decreased oocyte quantity and developmental potential. A possible cause is aging of the surrounding follicular somatic cells that support oocyte growth and development by providing nutrients and regulatory factors. Here, by creating chimeric follicles, whereby an oocyte from one follicle was transplanted into and cultured within another follicle whose native oocyte was removed, we show that young oocytes cultured in aged follicles exhibited impeded meiotic maturation and developmental potential, whereas aged oocytes cultured within young follicles were significantly improved in rates of maturation, blastocyst formation and live birth after in vitro fertilization and embryo implantation. This rejuvenation of aged oocytes was associated with enhanced interaction with somatic cells, transcriptomic and metabolomic remodeling, improved mitochondrial function and higher fidelity of meiotic chromosome segregation. These findings provide the basis for a future follicular somatic cell-based therapy to treat female infertility. Oocyte quality declines during aging. Here the authors show that oocytes from aged mice cultured within follicles from young mice have improved developmental potential. Aged oocytes cultured within young follicles have enhanced interaction with somatic cells, improved mitochondrial function and better meiotic chromosome segregation.

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暴露于年轻卵泡微环境中的高龄卵母细胞返老还童
生殖衰老是生育力下降的一个主要原因,其原因是卵母细胞数量和发育潜力下降。一个可能的原因是周围卵泡体细胞的衰老,这些细胞通过提供营养和调节因子支持卵母细胞的生长和发育。在这里,我们通过创建嵌合卵泡,将一个卵泡中的卵母细胞移植到另一个卵泡中并在其中培养,结果表明,在老化卵泡中培养的年轻卵母细胞的减数分裂成熟和发育潜能受到阻碍,而在年轻卵泡中培养的老化卵母细胞在体外受精和胚胎植入后的成熟率、囊胚形成率和活产率都有显著提高。高龄卵母细胞的年轻化与与体细胞的相互作用增强、转录组和代谢组重塑、线粒体功能改善以及减数分裂染色体分离的保真度提高有关。这些发现为未来基于卵泡体细胞治疗女性不孕症奠定了基础。
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