微生物群通过保护卵巢储备来延长生殖寿命

Sarah K Munyoki, Julie P Goff, Amanda Reshke, Erin Wilderoter, Nyasha Mafarachisi, Antonija Kolobaric, Yi Sheng, Steven Mullett, Gabrielle King, Jacob DeSchepper, Richard Bookser, Carlos A Castro, Stacy Gelhaus, Mayara Grizotte-Lake, Kathleen E Morrison, Anthony J Zeleznik, Timothy W Hand, Miguel Brieno-Enriquez, Eldin Jasarevic
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引用次数: 0

摘要

不孕症是一种破坏性疾病,全球每六人中就有一人受到影响。在许多情况下,其根本原因尚不清楚。新的证据表明,微生物群会影响生殖,但微生物群、卵巢功能和生育期长短之间的机理联系仍有待探索。在这里,我们报告了微生物群通过维持原始卵泡池来控制生殖寿命的长短,这一过程是由微生物群衍生的短链脂肪酸调节对卵巢储备的存活至关重要的基因调控网络介导的。在关键的发育窗口期对微生物群进行膳食干扰足以减少卵巢储备、降低卵母细胞检索率并损害植入前胚胎的存活率,这与人类生育治疗所面临的挑战如出一辙。恢复微生物群的靶向干预可改善辅助生殖结果,尤其是在早期实施时。这些发现揭示了宿主-微生物相互作用在哺乳动物生殖中的新贡献,并证明了微生物群对卵巢功能和生育能力的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The microbiota extends the reproductive lifespan by safeguarding the ovarian reserve
Infertility is a devastating condition affecting one in six people globally. In many cases, the underlying causes are unknown. Emerging evidence suggests that the microbiota influences reproduction, yet the mechanistic link between the microbiota, ovarian function, and length of the fertile lifespan remain unexplored. Here we report that the microbiota controls the length of the reproductive lifespan by maintaining the primordial follicle pool, a process mediated by microbiota-derived short chain fatty acids modulating gene regulatory networks crucial for the survival of the ovarian reserve. Dietary perturbation of the microbiota during a critical developmental window is sufficient to diminish the ovarian reserve, reduce oocyte retrieval, and impair preimplantation embryo viability, mirroring challenges in human fertility treatments. Targeted interventions to restore microbiota improve assisted reproductive outcomes, particularly when implemented early. These findings reveal a novel contribution of host-microbe interactions in mammalian reproduction and demonstrate that the microbiota impacts ovarian function and fertility.
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