Knock down of γ-glutamylcysteine synthetase in rat causes acetaminophen-induced hepatotoxicity

Drug-induced hepatotoxicity is mainly caused by hepatic glutathione (GSH) depletion. In general, the activity of rodent glutathione S-transferase is 10 to 20 times higher than that of humans, which could make the prediction of drug-induced hepatotoxicity in human more difficult. gamma-Glutamylcysteine synthetase (gamma-GCS) mainly regulates de novo synthesis of GSH in mammalian cells and plays a central role in the antioxidant capacity of cells. In this study, we constructed a GSH-depletion experimental rat model for the prediction of human hepatotoxicity. An adenovirus vector with short hairpin RNA against rat gamma-GCS heavy chain subunit (GCSh) (AdGCSh-shRNA) was constructed and used to knock down the GCSh. In in vitro study in H4IIE cells, a rat hepatoma cell line, GCSh mRNA and protein were significantly decreased by 80% and GSH was significantly decreased by 50% 3 days after AdGCSh-shRNA infection. In the in vivo study in rat, the hepatic GSH level was decreased by 80% 14 days after a single dose of AdGCSh-shRNA (2 x 10(11) pfu/ml/body), and this depletion continued for at least 2 weeks. Using this GSH knockdown rat model, acetaminophen-induced hepatotoxicity was shown to be significantly potentiated compared with normal rats. This is the first report of a GSH knockdown rat model, which could be useful for highly sensitive tests of acute and subacute toxicity for drug candidates in preclinical drug development.