James R. Gillette scite author profile

This laboratory has previously postulated that bromobenzene-induced hepatic necrosis results from the formation of a reactive metabolite that arylates vital cellular macromolecules. Accordingly, the severity of liver necrosis has been compared with the formation of metabolites of bromobenzene and with covalent binding of metabolites in vivo and in vitro after various pretreatment regimens that alter hepatotoxicity. These data provide direct kinetic evidence that 3,4-bromobenzene oxide is the reactive hepatotoxic metabolite. The studies also demonstrate that the hepatotoxic metabolite is preferentially conjugated (detoxified) with glutathione, thereby depleting glutathione from the liver. Liver necrosis and arylation of cellular macromolecules occur only when glutathione is no longer available. Thus, a dose threshold exists for bromobenzene-induced hepatic necrosis.

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Theoretical studies on cytochrome P-450 mediated hydroxylation: a predictive model for hydrogen atom abstractions

Korzekwa¹,

Jones²,

Gillette³

1990

J. Am. Chem. Soc.

139

150

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Possible Mechanism of Liver Necrosis Caused by Aromatic Organic Compounds

Brodie

Reid

Cho

et al. 1971

Proc. Natl. Acad. Sci. U.S.A.

325

124

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Treatment of rats with phenobarbital, which stimulates the activity of the drug-metabolizing enzymes in the liver, potentiates hepatic necrosis elicited by bromobenzene and a number of other chemically inert halogenated aromatic hydrocarbons. Radioautographic studies indicate that ['4Clbromobenzene is covalently bound at the sites of necrosis. From these results, it is inferred that the hepatotoxic effects of the halogenated aromatic hydrocarbons are mediated by chemically active metabolites formed in hepatocytes. In accord with this view, a number of aromatic halogenated hydrocarbons are converted by microsomes in vitro to active intermediates which form covalent complexes with glutathione (GSH).

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James R. Gillette

Bromobenzene-Induced Liver Necrosis. Protective Role of Glutathione and Evidence for 3,4-Bromobenzene Oxide as the Hepatotoxic Metabolite

Theoretical studies on cytochrome P-450 mediated hydroxylation: a predictive model for hydrogen atom abstractions

Possible Mechanism of Liver Necrosis Caused by Aromatic Organic Compounds

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