Postovulatory aging causes the deterioration of porcine oocytes via induction of oxidative stress

Negative effects of postovulatory aging on fertilization ability and subsequent embryo development have been reported in rodents; however, the molecular and cellular changes during this process have not been fully defined. Here, we used porcine oocytes, a model that is physiologically and developmentally similar to humans, to explore the molecular mechanisms that underlie how postovulatory aging affects oocyte quality and fertilization capacity. We found that postovulatory aging caused the morphologic change of porcine oocytes by exhibiting the incompact expansion of cumulus cells and an increased occurrence of fragmentation. Aging also impaired oocyte quality by disrupting organelle structures, including the spindle assembly, actin polymerization, and mitochondrial integrity. Moreover, postovulatory aging led to the abnormal distribution of cortical granules and ovastacin, which, in turn, resulted in defective sperm binding and consequently compromised fertilization potential. Of note, we observed that postovulatory aging induced oxidative stress with a high level of reactive oxygen species and apoptotic rate in oocytes, thereby resulting in the deterioration of critical factors in the maintenance of oocyte quality and fertilization capacity. Taken together, our findings demonstrate that postovulatory aging perturbs a variety of molecular and cellular changes in porcine oocytes by inducing oxidative stress.—Miao, Y., Zhou, C., Cui, Z., Zhang, M., ShiYang, X., Lu, Y., Xiong, B. Postovulatory aging causes the deterioration of porcine oocytes via induction of oxidative stress. FASEB J. 32,1328-1337 (2018). www.fasebj.org