Autophagy can inhibit ovarian senescence induced by oxidative stress and regulate follicle development and atresia, but its mechanism is still unclear. Exogenous spermidine can induce autophagy and scavenge reactive oxygen species (ROS). In this experiment, oxidative stress in Sichuan white geese ovaries and follicular granulosa cells (GCs) was caused by 3-nitropropionic acid (3-NPA) and spermidine was added to explore the effect of exogenous spermidine inducing autophagy and inhibiting oxidative stress in vivo and in vitro. Research results showed that putrescine, spermidine and spermine contents in goose ovaries in the group treated with spermidine combined with 3-NPA were 2.70, 1.94, and 1.70 times higher than those in the group treated with 3-NPA, respectively (P < 0.05). The contents of spermidine and spermine in GCs were 1.37 and 0.89 times higher in the spermidine in combination with the 3-NPA group than in the 3-NPA group, respectively (P < 0.05). LC3 and p62 were mainly expressed in the follicular granulosa layer. The LC3-II/I ratio and p62 level in GCs in the spermidine combined with 3-NPA treatment group were 1.37 and 0.77 times higher than that of the 3-NPA treatment group, respectively (P < 0.05). 3-NPA treatment significantly increased ROS level and the apoptosis rate in GCs, while the combined treatment of spermidine and 3-NPA reversed this change (P < 0.05). In conclusion, spermidine alleviated the oxidative damage induced by 3-NPA by improving the antioxidant capacity of ovaries and follicular GCs of Sichuan white geese and may be alleviated by inducing autophagy in GCs.
Keywords: autophagy; goose ovaries; granulosa cells; oxidative stress; spermidine.
This study investigated the effects of exogenous spermidine on oxidative stress induced by 3-nitropropionic acid (3-NPA) in ovaries and granulosa cells of Sichuan white geese. In ovarian tissue, spermidine can reduce malondialdehyde accumulation induced by 3-NPA by increasing antioxidant enzyme activity, thus alleviating the oxidative damage induced by 3-NPA. In addition, spermidine can also improve the morphological structure of follicles and alleviate the structural damage caused by 3-NPA. Our results showed that autophagy-associated proteins are mainly concentrated in the granulosa layer of follicles and spermidine can alter their expression. Subsequently, we found that spermidine could induce autophagy and reduce the accumulation of reactive oxygen species and apoptosis rate induced by 3-NPA in granulosa cells. Therefore, we speculate that spermidine can alleviate oxidative stress induced by 3-NPA by inducing autophagy in granulosa cells. In conclusion, spermidine can relieve oxidative stress induced by 3-NPA by increasing the activity of antioxidant enzymes, and may also relieve oxidative stress by inducing autophagy.
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