MicroRNA‐146b‐5p overexpression attenuates premature ovarian failure in mice by inhibiting the Dab2ip/Ask1/p38‐Mapk pathway and γH2A.X phosphorylation

OBJECTIVE: To examine the role of high‐fat and high‐sugar (HFHS) diet‐induced oxidative stress, which is a risk factor for various diseases, in premature ovarian failure (POF). MATERIALS AND METHODS: Ovarian granulosa cells (OGCs) were isolated from mice and cultured in medium supplemented with HFHS and poly (lactic‐co‐glycolic acid) (PLGA)‐cross‐linked miR‐146b‐5p nanoparticles (miR‐146@PLGA). RNA and protein expression levels were examined using quantitative real‐time polymerase chain reaction and Western blotting, respectively. HFHS diet‐induced POF model mice were administered miR‐146@PLGA. RESULTS: The ovarian tissue of mice fed a HFHS diet exhibited the typical pathological characteristics of POF. HFHS supplementation induced oxidative stress injury in the mouse OGCs, activation of the Dab2ip/Ask1/p38‐Mapk signalling pathway and phosphorylation of γH2A.X in vitro and in vivo. The results of the luciferase reporter assay revealed that miR‐146 specifically downregulated p38‐Mapk14 expression. Meanwhile, co‐immunoprecipitation and Western blot analyses revealed that HFHS supplementation upregulated nuclear p38‐Mapk14 expression and consequently enhanced γH2A.X (Ser139) phosphorylation. The HFHS diet‐induced POF mouse model treated with miR‐146@PLGA exhibited downregulated p38‐Mapk14 expression in the OGCs, mitigated OGC ageing and alleviated the symptoms of POF. CONCLUSIONS: This study demonstrated that HFHS supplementation activates the Dab2ip/Ask1/p38‐Mapk signalling pathway and promotes γH2A.X phosphorylation by inhibiting the expression of endogenous miR‐146b‐5p, which results in OGC ageing and POF development.