Abstract
Premature ovarian insufficiency (POI) is a clinical syndrome of ovarian dysfunction characterized by the abnormal alteration of hormone levels such as FSH and E2. POI causes infertility, severe daily life disturbances, and long-term health risks. However, the underlying mechanism remains largely unknown. In this study, we found that POI is associated with the cellular senescence of ovarian granulosa cells, and TRIM28 mediates oxidative stress (OS)-induced cellular senescence in granulosa cells. Mechanistically, OS causes a decrease in TRIM28 protein levels in KGN cells. Subsequently, it triggers an increase in the levels of autophagy marker proteins ATG5 and LC3B-II, and the downregulation of P62. Abnormal autophagy induces an increase in the levels of cellular senescence markers γ-H2A.X, P16, and P21, provoking cellular senescence in vitro. The overexpression of ovarian TRIM28 through a microinjection of lentivirus attenuated autophagy, cellular senescence, and follicular atresia in the ovaries of POI mice and improved mouse fertility in vivo. Our study highlights the triggers for POI, where the reduction of TRIM28, which is regulated by reactive oxygen species, causes follicular atresia and POI via triggering autophagy and inducing granulosa cell senescence. Shedding light on TRIM28 may represent a potential intervention strategy for POI.