Cell Reports (Dec 2019)
Functional Oocytes Derived from Granulosa Cells
Abstract
Summary: The generation of genomically stable and functional oocytes has great potential for preserving fertility and restoring ovarian function. It remains elusive whether functional oocytes can be generated from adult female somatic cells through reprogramming to germline-competent pluripotent stem cells (gPSCs) by chemical treatment alone. Here, we show that somatic granulosa cells isolated from adult mouse ovaries can be robustly induced to generate gPSCs by a purely chemical approach, with additional Rock inhibition and critical reprogramming facilitated by crotonic sodium or acid. These gPSCs acquired high germline competency and could consistently be directed to differentiate into primordial-germ-cell-like cells and form functional oocytes that produce fertile mice. Moreover, gPSCs promoted by crotonylation and the derived germ cells exhibited longer telomeres and high genomic stability like PGCs in vivo, providing additional evidence supporting the safety and effectiveness of chemical induction, which is particularly important for germ cells in genetic inheritance. : Tian et al. report the successful generation of functional oocytes with genomic stability that produce fertile pups from adult-granulosa-cell-derived gPSCs through chemical reprogramming, which exhibits great potential for preserving fertility and restoring ovarian function. Keywords: chemical reprogramming, pluripotent stem cell, oocyte, granulosa cell
