Abstract
The ergot alkaloid CQA 206-291 (CQA) was converted by human liver microsomes (n = 16) almost exclusively to the N-deethylated metabolite (I), as identified by the on-line coupling of liquid chromatography and mass spectroscopy. Metabolite I formation exhibited monophasic and linear enzyme kinetics (2.9-300 microM), and a 5.6-fold interindividual variability (7.2-40.2 nmol/mg/hr). Chemical inhibition experiments revealed that imidazole antimycotic agents (ketoconazole, miconazole, and clotrimazole) were potent inhibitors of this N-deethylation. Polymorphically metabolized substrates (sparteine and phenytoin), well-established cytochrome P-450 probe substrates (antipyrine and tolbutamide), and steroid hormones (estradiol and testosterone) were noninhibitory, indicating that their metabolism is catalyzed by forms of cytochrome P-450 that do not catalyze this route of CQA biotransformation. The ergot alkaloids--dihydroergotamine, bromocriptine, and SDZ 208-911--were competitive inhibitors of metabolite I formation, suggesting that these compounds are metabolized by similar enzymes. Cyclosporine A was a potent competitive inhibitor of CQA metabolism, providing initial evidence that formation of metabolite I was catalyzed by proteins of the CYP3 gene family. This was substantiated by the finding that CQA metabolism was completely inhibited by a polyclonal antibody directed against a pregnenolone 16 alpha-carbonitrile-inducible cytochrome P-450 of rat liver. The rate of CQA metabolism correlated significantly to the level of CYP3A4 expression, the rate of cyclosporine A metabolism to each of the primary metabolites (M-1, M-17, and M-21), and the rate of midazolam 4-hydroxylation. COS 1 cells transfected with human CYP3A4 and CYP3A5 provided direct evidence that these enzymes catalyze the metabolism of CQA.(ABSTRACT TRUNCATED AT 250 WORDS)
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