Phthalate induces mitochondrial injury in cerebellum through Sirt1-PGC-1α and PINK1/Parkin-mediated signal pathways

Di-(2-ethylhexyl) phthalate (DEHP) is an environmental toxicant that is widely used in the whole world as a plasticizer that can enhance plastic properties. A number of reserarches have demonstrated that DEHP could cause varying degrees of damage to the normal function of nerve. The research aimed to investigate the mechanism of DEHP-induced cerebellar toxicity. In present study, we set DEHP-caused cerebellar injury models of quail and implied that DEHP induced cerebellar dysplasia by abnormity of Purkinje cell and reduction of cerebellar granule cell. Furthermore, the mitochondrial damage was confirmed by the swelling, cristae reduction, membrane rupture of mitochondria or even the occurrence of autophagic vacuole. To clarified DEHP-induced mitochondrial damage in cerebellum, we examined the relevant genes of mitochondrial biogenesis, mitochondrial dynamics, oxidative damage, the pathways related to Nrf2 and PINK1/Parkin in cerebellum. Based on data, it appeared that DEHP treatment had a damaging effect on the cerebellum and led to mitophagy as well as oxidative stress. In conclusion, the research indicated that DEHP-actuated mitochondrial injury has a directly relationship with mitophagy. DEHP-actuated reduced mitochondrial biogenesis and dysregulation of mitochondrial dynamics. The increase of oxidative stress damaged mitochondria, and the redundant ROS in damaged mitochondria that gave rise to cerebellar harm.