In vitro maturation (IVM) and vitrification have been widely used to prepare oocytes before fertilization; however, potential effects of these procedures, such as expression profile changes, are poorly understood. In this study, mouse oocytes were divided into four groups and subjected to combinations of in vitro maturation and/or vitrification treatments. RNA-seq and in silico pathway analysis were used to identify differentially expressed genes (DEGs) that may be involved in oocyte viability after in vitro maturation and/or vitrification. Our results showed that 1) 69 genes were differentially expressed after IVM, 66 of which were up-regulated. Atp5e and Atp5o were enriched in the most significant gene ontology term “mitochondrial membrane part”; thus, these genes may be promising candidate biomarkers for oocyte viability after IVM. 2) The influence of vitrification on the transcriptome of oocytes was negligible, as no DEGs were found between vitrified and fresh oocytes. 3) The MII stage is more suitable for oocyte vitrification with respect to the transcriptome. This study provides a valuable new theoretical basis to further improve the efficiency of in vitro maturation and/or oocyte vitrification.
Cryopreservation damages permeability of sperm mitochondrial membranes, with formation of a mitochondrial permeability transition pore (mPTP). Mitochondria are both a primary synthesis site and principle target for melatonin, which can directly inhibit mPTP formation. The objective was to determine effects of melatonin on mPTP opening of frozen‐thawed ram sperm and elucidate underlying pathways by antagonist and agonists of melatonin receptors (MTs), and antagonists of PI3K and GSK 3β treatments; furthermore, plasma membrane integrity, mitochondrial membrane potential (ΔΨm), mitochondrial cytochrome c (Cyt c) release and fertilization were analysed to assess the effect of mPTP status mediated by melatonin on quality of frozen‐thawed sperm. Fresh ram semen was diluted in glucose‐egg yolk buffer with 0 or 10–7 M melatonin (frozen and frozen + melatonin groups, respectively) and slow‐frozen. In frozen‐thawed sperm, melatonin added at initiation of 4°C equilibration was most effective for inhibiting mPTP opening, decreasing peptidyl‐prolyl‐cis/trans isomerase activity of cyclophilin D and increasing plasma membrane integrity, ΔΨm, mitochondrial Cyt c concentration and fertilizing ability (p < .05). In a mechanistic study, the melatonin receptor (MT)1 antagonist eliminated inhibition of melatonin on mPTP opening, whereas MT1 agonist had opposite effects (p < .05). Neither MT2 antagonist nor agonist had significant effect, but PI3K and/or GSK 3β antagonist decreased inhibition of MT1 agonist on mPTP opening (p < .05). In conclusion, melatonin improved sperm cryopreservation, perhaps by acting on MT1 via the PI3K‐Akt‐GSK 3β pathway to inhibit mPTP opening.
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