Abstract

AimsAcetaminophen (APAP) is a relatively safe analgesic drug, but overdosing can cause acute liver failure. Ingested APAP is detoxified by metabolic conversion through conjugation reactions with glucuronate, sulfate, or glutathione (GSH). The consumption of GSH through conjugation as well as mitochondrial dysfunction is considered to be responsible for the increased susceptibility to APAP-induced hepatotoxicity. Compared to wild-type (WT) mice, Akr1a-knockout (KO) mice are vulnerable to developing hepatotoxicity due to the fact that ascorbate synthesis is attenuated. We used such KO mice to investigate how these conjugation reactions are involved in the hepatotoxicity caused by an overdose of APAP under ascorbate-deficient conditions. Main methodsAPAP (400 mg/kg) was intraperitoneally administered to WT mice and KO mice. In addition to histological and blood biochemical analyses, metabolites in the liver, blood plasma, and urine were measured at several time points by liquid chromatography-mass spectrometry. Key findingsLiver damage occurred earlier in the KO mice than in the WT mice. The levels of APAP-Cys, a final metabolite of GSH-conjugated APAP, as well as glucuronidated APAP and sulfated APAP were all higher in the KO mice compared to the WT mice. Treatment of the APAP-administered KO mice with N-acetylcysteine or supplementation of ascorbate suppressed the conjugation reactions at 6 h after APAP had been administrated, which mitigated the degree of liver damage. SignificanceAn ascorbate deficiency coordinately stimulates conjugation reactions of APAP, which, combined with the mitochondrial damage caused by APAP metabolites, collectively results in the aggravation of the acute liver failure.

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