T. L. Chow scite author profile

ABSTRACT:In rats, six cytochrome P450 (P450) 2D isoforms have been genetically identified. Nonetheless, there is little evidence of catalytic properties of each CYP2D isoform. In this study, using recombinant CYP2D isoforms (rat CYP2D1, CYP2D2, CYP2D3, and CYP2D4 and human CYP2D6) or hepatic microsomes, we investigated the catalytic specificity toward bufuralol, debrisoquine, and propranolol, which are frequently used as CYP2D substrates. Bufuralol was oxidized to three metabolites by rat and human hepatic microsomes. 1-Hydroxybufuralol was the major metabolite. 12-Ethenylbufuralol, one of the others, was identified as a novel metabolite. The formation of 1-hydroxybufuralol and 12-ethenylbufuralol in hepatic microsomes was inhibited by anti-CYP2D antibody, suggesting that these metabolites were formed by CYP2D isoforms. All rat and human recombinant CYP2D isoforms possessed activity for the 1-hydroxylation of bufuralol, indicating that this catalytic property was common to all CYP2D isoforms. However, the 12-ethenylation of bufuralol was catalyzed only by rat CYP2D4 and human CYP2D6. Debrisoquine was oxidized to two metabolites, 3-hydroxydebrisoquine, and 4-hydroxydebrisoquine, by hepatic microsomes. Recombinant CYP2D2 and CYP2D6 had very high levels of activity for the 4-hydroxylation of debrisoquine with low K m values. Only CYP2D1 had a higher level of 3-hydroxylation than 4-hydroxylation activity. Propranolol 4-hydroxylation was catalyzed by CYP2D2, CYP2D4, and CYP2D6. The 7-hydroxylation of propranolol was catalyzed only by CYP2D2. In conclusion, in rats, bufuralol 12-ethenylation activity was specific to CYP2D4 and debrisoquine 4-hydroxylation and propranolol 7-hydroxylation activities were specific to CYP2D2. These catalytic activities are useful as a probe for rat CYP2D isoforms.

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Tissue distributions of CYP2D1, 2D2, 2D3 and 2D4 mRNA in rats detected by RT-PCR

Hiroi

Imaoka

Chow

et al. 1998

Biochimica et Biophysica Acta (BBA) - General Subjects

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Expression of Four Rat CYP2D Isoforms inSaccharomyces cerevisiaeand Their Catalytic Specificity

Wan

Imaoka

Chow

et al. 1997

Archives of Biochemistry and Biophysics

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Adenoviral Infection in Suckling Arabian Foals

McChesney

England

Adcock

et al. 1970

Pathologia veterinaria

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This preliminary report describes an adenoviral infection recently recognized in Arabian foals. Clinically, the condition is suggestive of pneumonia and is frequently progressive and fatal. This article refers to 10 cases that had similar histories and postmortem lesions. The presence of large amphophilic intranuclear inclusions in respiratory epithelia of all cases suggested a viral etiology and prompted the current investigation.

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Metabolism of Selegiline Hydrochloride, a Selective Monoamine B-type Inhibitor, in Human Liver Microsomes

Kamada

Chow

Hiroi

et al. 2002

Drug Metabolism and Pharmacokinetics

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The participation of cytochrome P-450 (CYP) isoforms in the metabolism of selegiline was investigated. Experiments using recombinant CYP isoforms expressed in human lymphoblastoid cells showed CYP2B6 to be the major CYP isoform involved with the metabolism of selegiline. CYP1A2 and CYP3A4 also contributed to the metabolism of selegiline but their catalytic activities were much less than that of CYP2B6. CYP2B6 had a higher affinity for both N-depropagylation (K(m)=21.4 microM) and N-demethylation (K(m)=25.2 microM) of selegiline than CYP3A4 and CYP1A2. In immunoinhibition studies using mixed human hepatic microsomes, selegiline N-depropagylation activity was most strongly inhibited by anti-CYP2B and anti-CYP3A antibodies, while selegiline N-demethylation activity was most inhibited by anti-CYP2B antibody. In CYP2B6-rich human hepatic microsomes, anti-CYP2B antibody had the strongest inhibitory effects on both activities. Selegiline inhibited CYP2B6-mediated (S)-mephenytoin N-demethylation activity and CYP2C19-mediated (S)-mephenytoin 4'-hydroxylation activity. These findings suggest that attention should be paid to the drug-drug interaction associated with CYP2B6 and CYP2C19. In conclusion, CYP2B6 participates in the metabolism of selegiline but the degree of its contribution varies with the level of its expression in human liver.

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T. L. Chow

Catalytic Specificity of CYP2D Isoforms in Rat and Human

Tissue distributions of CYP2D1, 2D2, 2D3 and 2D4 mRNA in rats detected by RT-PCR

Expression of Four Rat CYP2D Isoforms inSaccharomyces cerevisiaeand Their Catalytic Specificity

Adenoviral Infection in Suckling Arabian Foals

Metabolism of Selegiline Hydrochloride, a Selective Monoamine B-type Inhibitor, in Human Liver Microsomes

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