Pentavalent vanadium (V 5+) (metavanadate salt) toxicity is a challenging problem to the health professionals and has been recognized as an industrial hazard that adversely affects human and animal health, but its cytotoxic mechanisms have not yet been completely understood. In this study, we investigated the cytotoxic mechanisms of V 5+ in freshly isolated rat hepatocytes. V 5+ cytotoxicity was associated with reactive oxygen species (ROS) formation, collapse of mitochondrial membrane potential, lysosomal membrane rupture and cytochrome c release into the hepatocyte cytosol. All of the above mentioned V 5+ -induced cytotoxicity markers were significantly (p < 0.05) prevented by ROS scavengers, antioxidants and mitochondrial permeability transition (MPT) pore sealing agents. Hepatocyte glutathione (GSH) was also rapidly oxidized and GSH-depleted hepatocytes were more resistant to lithium-induced oxidative stress markers. This suggests that V 5+ is activated by GSH. Our findings also showed that the lysosomotropic agents prevented V 5+ induced mitochondrial membrane potential collapse. On the other hand, mitochondrial MPT pore sealing agents inhibited lysosomal membrane damage caused by V 5+ . It can therefore be suggested that there is probably a toxic interaction (cross-talk) between mitochondrial and lysosomal oxidative stress generating systems, which potentiates ROS formation and further damages both sub-organelles in V 5+ -induced induced hepatotoxicity. In conclusion, V 5+ -induced cytotoxicity can be attributed to oxidative stress started from glutathione mediated metal reductive activation and continued by mitochondrial/lysosomal toxic interaction.
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