Modulation of Apoptosis and Autophagy by Melatonin in Juglone-Exposed Bovine Oocytes

SIMPLE SUMMARY: During the in vitro embryo production (IVP) of embryos, the in vitro maturation (IVM) environment triggers the accumulation of reactive oxygen species that harm the maturation of oocytes and subsequent developmental competence. We used a bovine oocyte model to check the effect of melatonin (MT) supplementation during IVM on the quality and developmental competence of oocytes while under the stress of juglone. Using different analytical tools, the efficiency of MT in protecting oocytes from the deleterious effects of juglone-induced oxidative stress in bovine oocytes via the regulation of oocyte development, apoptosis, autophagy, and mitochondrial function was observed. ABSTRACT: Melatonin, an antioxidant hormone secreted by the pineal gland, has been recognized as a regulator for numerous biological events. The deleterious effects of juglone, a polyphenolic extract of walnut trees, on embryo development has been previously reported. In the current study, we aimed to display the impact of melatonin administrated during in vitro oocyte maturation (IVM) on juglone-treated oocytes. Thus, in vitro matured oocytes were collected after 24 h post incubation with juglone in the presence or absence of melatonin. Reactive oxygen species (ROS), glutathione (GSH) content, mitochondrial distribution, and the relative abundance of mRNA transcription levels were assessed in oocytes, in addition, oocytes were in vitro fertilized to check the competency levels of oocytes to generate embryos. We found that administration of melatonin during the maturation of oocytes under juglone stress significantly improved the cleavage rate, 8-16 cell-stage embryos and day-8 blastocysts when compared to the sole juglone treatment. In addition, the fluorescence intensity of ROS increased, whereas the GSH decreased in juglone-treated oocytes compared to melatonin–juglone co-treated and untreated ones. Additionally, a significant increase in the mitochondrial aberrant pattern, the pattern that was normalized following melatonin supplementation, was observed following juglone administration. The mRNA analysis using RT-qPCR revealed a significant upregulation of autophagy and oxidative-stress-specific markers in the juglone-treated group compared to the co-treatment and control. In conclusion, the study reveals, for the first time, a protective effect of melatonin against the oxidative stress initiated following juglone treatment during the in vitro maturation of oocytes.