Improved development by melatonin treatment after vitrification of mouse metaphase II oocytes

•Mouse MII oocytes were cryopreserved by open-pulled straw method.•The ROS levels and genes (Dcp1a, Dcp2, Hspa1a, Eif1ax, Pou5f1, Sox2) expression were changed.•After melatonin supplementation, the genes expressions were almost recovered to normal level.•Melatonin could increase the developmental potential of vitrified mouse MII oocytes.

The study was aimed to investigate the effect of melatonin on the development potential of mouse MII oocytes after cryopreservation. Mouse MII oocytes were subjected first to vitrification/warming and 2 h of in vitro culture (phase 1), then to parthenogenetic activation (PA) followed by in vitro culture of parthenogenetic embryos (phase 2). Different concentrations of melatonin (0, 10−9, 10−6 mol/L) were added to the medium during either phase 1, phase 2 or both phases. The fresh oocytes were used as control. When melatonin was used during both phases, 10−9 mol/L melatonin-treated group showed similar rates of cleavage and 4-cell embryo development compared with control, which were significantly higher than those of melatonin-free group, while the rates in either 10−6 mol/L melatonin-treated or melatonin-free groups were significantly lower than that in control. When 10−9 mol/L melatonin was added during either phase 1 or phase 2, both cleavage and 4-cell embryo development rates of either group were significantly lower than those of control. After oocyte vitrification/warming and PA, the ROS levels increased significantly and maternal-to-zygotic transition (MZT) related genes (Dcp1a, Dcp2, Hspa1a, Eif1ax, Pou5f1, Sox2) expression were disorganized. However, after 10−9 mol/L melatonin supplementation, the ROS levels decreased significantly compared with melatonin-free group, and the gene expressions were almost recovered to normal level of control group. These results demonstrated that 10−9 mol/L melatonin supplementation could increase the developmental potential of vitrified-warmed mouse MII oocytes, which may result from ROS scavenging activities and recovery of normal levels of the expressions of MZT-related genes.