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Metabolism-dependent inhibition of CYP2E1 by isoniazid, a mediator of idiosyncratic liver injury.
Chemico-biological Interactions 2024 July 22
Liver injury is a well-known adverse effect of the anti-tuberculosis drug isoniazid (INH); however, animal models that accurately replicate this effect as seen in humans have not been constructed, and the mechanism of its pathogenesis remains unclear. Recently, an immune-mediated mechanism have been proposed based on clinical studies, suggesting the involvement of cytochrome P450-mediated formation of reactive metabolites and covalent adducts in severe cases. In the present study, we investigated the role of CYP2E1 in this mechanism. Liver microsomes from humans, rats, and mice were preincubated with INH and NADPH; thereafter, residual CYP2E1 activity was measured. The inhibition of CYP2E1 by INH was potentiated by preincubation, indicating time-dependent inhibition. There were no major species-based differences in inhibition among humans, rats, and mice. Further to our findings on the inhibition kinetics, resistance of the inhibition to glutathione and catalase indicated that the reactive metabolites of INH covalently bonded to CYP2E1 in a suicidal manner. A similar time-dependent inhibition was also observed for the known metabolites acetylhydrazine and hydrazine; however, the conditions that inhibited the hydrolysis or activated the acetylation of INH did not affect inhibition by INH, suggesting that the reactive metabolites contributing to the inhibition were generated via alternative pathways. This indicates that CYP2E1 alone generates reactive INH metabolites and that haptenized CYP2E1 may be involved in immune-mediated liver injury.
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