Oxidation of quinidine by human liver cytochrome P-450

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Oxidation of quinidine by human liver cytochrome P-450

FP Guengerich, D Muller-Enoch and IA Blair

The anti-arrhythmic quinidine has been reported to be a competitive inhibitor of the catalytic activities of human liver P-450DB, including sparteine delta 2-oxidation and bufuralol 1'-hydroxylation, and we confirmed the observation that submicromolar concentrations are strongly inhibitory. Human liver microsomes oxidize quinidine to the 3- hydroxy (Km 4 microM) and N-oxide (Km 33 microM) products, consonant with in vivo observations. Both bufuralol and sparteine inhibited microsomal quinidine 3-hydroxylation. Liver microsomes prepared from DA strain rats showed a relative deficiency in quinidine 3-hydroxylase activity in females compared to males. These observations might suggest that quinidine oxidation is catalyzed by the same P-450 forms that oxidize debrisoquine, bufuralol, and sparteine; i.e., rat P-450UT-H and P-450DB. However, neither of these two purified enzymes catalyzed quinidine 3-hydroxylation, and anti-P-450UT-H, which strongly inhibits human liver microsomal bufuralol 1'-hydroxylation, did not substantially inhibit quinidine 3-hydroxylation or N-oxygenation. P- 450MP, the human S-mephenytoin 4-hydroxylase, also does not appear to oxidize quinidine but P-450NF, the human nifedipine oxidase, does. Anti- P-450NF inhibited greater than 95% of the 3-hydroxylation and greater than 85% of the N-oxygenation of quinidine in several microsomal samples. Quinidine inhibited microsomal nifedipine oxidation and, in a series of human liver samples, rates of nifedipine oxidation were correlated with rates of quinidine oxidation. Thus, quinidine oxidation appears to be catalyzed primarily by P-450NF and not by P-450DB. Quinidine binds 2 orders of magnitude more tightly to P-450DB, which does not oxidize it, than to P-450NF, the major enzyme involved in its oxidation. The substrate specificity of human P-450NF is discussed further in terms of its regioselective oxidations of complex molecules including quinidine, aldrin, benzphetamine, cortisol, testosterone and androstenedione, estradiol, and several 2,6-dimethyl-1,4- dihydropyridines.

Volume 30, Issue 3, pp. 287-295, 09/01/1986
Copyright © 1986 by American Society for Pharmacology and Experimental Therapeutics

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Oxidation of quinidine by human liver cytochrome P-450

Volume 30, Issue 3, pp. 287-295, 09/01/1986 Copyright © 1986 by American Society for Pharmacology and Experimental Therapeutics

Volume 30, Issue 3, pp. 287-295, 09/01/1986
Copyright © 1986 by American Society for Pharmacology and Experimental Therapeutics

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				T. L. Nielsen, B. B. Rasmussen, J.-P. Flinois, P. Beaune, and K. Brøsen In Vitro Metabolism of Quinidine: The (3S)-3-Hydroxylation of Quinidine Is a Specific Marker Reaction for Cytochrome P-4503A4 Activity in Human Liver Microsomes J. Pharmacol. Exp. Ther., April 1, 1999; 289(1): 31 - 37. [Abstract] [Full Text]

				A. Kiriyama, T. Nishiura, H. Yamaji, and K. Takada Metabolic Characterization of a Tripeptide Human Immunodeficiency Virus Type 1�Protease Inhibitor, KNI-272, in Rat Liver Microsomes Antimicrob. Agents Chemother., March 1, 1999; 43(3): 549 - 556. [Abstract] [Full Text]

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