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Oocyte-derived microvilli control female fertility by optimizing ovarian follicle selection in mice

Yan Zhang, Ye Wang, Xie’an Feng, Shuo Zhang, Xueqiang Xu, Lingyu Li, Shudong Niu, Yingnan Bo, Chao Wang, Zhen Li, Guoliang Xia, Hua Zhang

2021Nature Communications118 citationsDOIOpen Access PDF

Abstract

Crosstalk between oocytes and surrounding somatic cells is crucial for mammalian oogenesis, but the structural mechanisms on oocytes to control female reproduction remain unknown. Here we combine endogenous-fluorescent tracing mouse models with a high-resolution live-cell imaging system to characterize oocyte-derived mushroom-like microvilli (Oo-Mvi), which mediate germ-somatic communication in mice. We perform 3D live-cell imaging to show that Oo-Mvi exhibit cellular characteristics that fit an exocrine function for signaling communication. We find that deletion of the microvilli-forming gene Radixin in oocytes leads to the loss of Oo-Mvi in ovaries, and causes a series of abnormalities in ovarian development, resulting in shortened reproductive lifespan in females. Mechanistically, we find that Oo-Mvi enrich oocyte-secreted factors and control their release, resulting in optimal selection of ovarian follicles. Taken together, our data show that the Oo-Mvi system controls the female reproductive lifespan by governing the fate of follicles.

Topics & Concepts

OocyteBiologySomatic cellOogenesisCell biologyOvarian follicleGerm cellAndrologyOvaryGeneEmbryoEndocrinologyGeneticsMedicineReproductive Biology and FertilitySperm and Testicular FunctionOvarian function and disorders
Oocyte-derived microvilli control female fertility by optimizing ovarian follicle selection in mice | Litcius