Mitochondria are important regulators of both apoptosis and autophagy. One of the triggers for mitochondrial-mediated apoptosis is the production of reactive oxygen species (ROS), which include hydrogen peroxide, superoxide, hydroxyl radical, nitric oxide and peroxynitrite. Recently, several studies have indicated that ROS may also be involved in the induction of autophagy. In the present study, we used H
2O
2 to induce mitochondrial stress, examined apoptotic- and autophagic-related gene expression and observed LC3 protein (autophagosome presence marker) expression in porcine parthenotes developing
in vitro. In porcine four-cell parthenotes cultured for 5 days in NCSU37 medium containing 0.4% BSA, the developmental rate and mitochondrial distribution did not differ from that of the group supplemented with 100 μM H
2O
2 but was significantly decreased in the group supplemented with 500 μM H
2O
2 (P<0.05). Transmission electron microscopy (TEM) indicated that whereas normal shaped mitochondria were observed in blastocysts from the control group, abnormal mitochondria (mitophagy) and autophagic vacuoles were observed in blastocysts from the group that received 500 μM H
2O
2. Furthermore, addition of H
2O
2 (100 μM and 500 μM) decreased cell numbers (P<0.05) and increased both apoptosis (P<0.05) and LC3 protein expression in the blastocysts. Real-time RT-PCR showed that H
2O
2 significantly decreased mRNA expression of anti-apoptotic gene
Bcl-xL but increased pro-apoptotic genes,
Caspase 3 (
Casp3) and
Bak, and autophagy-related genes, microtubule-associated protein 1 light chain 3 (
Map1lc3b) and lysosomal-associated membrane protein 2 (
Lamp2). However, the addition of H
2O
2 had no effect on mRNA expression levels in nuclear DNA-encoded mitochondrial-related genes, cytochrome oxidase (
Cox)
5a,
Cox5b and
Cox6b1, in blastocysts. These results suggest that H
2O
2 leads to mitochondrial dysfunction that results in apoptosis and autophagy, which is possibly related to porcine early embryo development.
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