H V Gelboin scite author profile

Previous kinetic studies have identified a high-affinity (S)-warfarin 7-hydroxylase present in human liver microsomes which appears to be responsible for the termination of warfarin's biological activity. Inhibition of the formation of (S)-7-hydroxywarfarin, the inactive, major metabolite of racemic warfarin in humans, is known to be the cause of several of the drug interactions experienced clinically upon coadministration of warfarin with other therapeutic agents. In order to identify the specific form(s) of human liver cytochrome P-450 involved in this particular toxicity, we have determined the metabolic profiles of 11 human cytochrome P-450 forms expressed in HepG2 cells toward both (R)- and (S)-warfarin. Of the 11 forms examined only 2C9 displayed the regioselectivity and stereoselectivity appropriate for the high-affinity human liver microsomal (S)-7-hydroxylase. We further compared Michaelis-Menten and sulfaphenazole inhibition constants for (S)-warfarin 7-hydroxylation catalyzed by cDNA-expressed 2C9 and by human liver microsomes. Similar kinetic constants were obtained for each enzyme source. It is concluded that 2C9 is likely to be a principal form of human liver P-450 which modulates the in vivo anticoagulant activity of the drug. It is further concluded that those drug interactions with warfarin that arise as a result of decreased clearance of the biologically more potent S-enantiomer may have as their common basis the inhibition of P-450 2C9.

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The effect of cigarette smoking on 7‐ethoxyresorufin O‐deethylase and other monooxygenase activities in human liver: analyses with monoclonal antibodies.

Pelkonen¹,

Pasanen²,

Kuha³

et al. 1986

Brit J Clinical Pharma

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1 Four cytochrome P-450 enzyme activities, 7-ethoxyresorufin O-deethylase (ERDE), coumarin 7-hydroxylase (CH), 7-ethoxycoumarin 0-deethylase (ECDE) and aryl hydrocarbon hydroxylase (AHH) were measured in human liver needle biopsy samples from smokers and non-smokers. Cigarette smoking was verified and quantitated by measuring plasma cotinine levels.3 Enzyme inhibitory monoclonal antibodies (MAb) to a 3-methylcholanthrene-induced (MAb 1-7-1) and phenobarbitone-induced (MAb 2-66-3) rat hepatic cytochrome P-450 were used to measure the contribution of MAb-defined, epitope-specific cytochromes P-450 to the total reaction measured for each of the above activities. 3 ERDE activity was significantly elevated in the livers of cigarette smokers, whereas AHH, CH or ECDE activities were not affected by cigarette smoking. No correlation was observed between plasma cotinine concentration and ERDE activity. 4 MAb 1-7-1 inhibited hepatic ERDE activity to a variable extent (from 0 to 65%), but had very little or no effect on AHH, CH or ECDE activities. The inhibitory effect of MAb 1-7-1 on ERDE activity was greater than 50% in the non-smokers. MAb 2-66-3 had no inhibitory effect on any of the enzyme activities studied. 5 In contrast to liver both ERDE and AHH on human placental microsomes from cigarette smokers were inhibited by MAb 1-7-1. The MAb 2-66-3 was without effect. 6 Cigarette smoking induces a form of P-450 in human liver, responsible for ERDE activity, that contains an epitope recognized by MAb 1-7-1. This form of cytochrome P-450 is insensitive to MAb 2-66-3 and is not contributing to AHH, CH or ECDE activities of human liver.

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Immunohistochemical localization of cytochrome P-450 in rat brain

et al. 1987

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Retention of membrane proteins by the endoplasmic reticulum.

Brands¹,

Snider²,

Hino³

et al. 1985

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We have used a monoclonal antibody specific for a hydrocarbon-induced cytochrome P450 to localize, by electron microscopy, the epitope-specific cytochrome P450. The cytochrome was found in the rough and smooth endoplasmic reticulum (ER) and the nuclear envelope of hepatocytes. Significant quantities of cytochrome P450 were not found in Golgi stacks. We also could not find any evidence of Golgi-associated processing of the Asn-linked oligosaccharide chains of two well-characterized ER membrane glycoprotein enzymes (glucosidase II and hexose-6-phosphate dehydrogenase), or of the oligosaccharides attached to the bulk of the glycoproteins of the ER membrane. We conclude that these ER membrane proteins are efficiently retained during a process of highly selective export from this organelle.Evidence from subcellular fractionation (1-5; and reviewed in reference 6) suggests that membrane proteins (enzyme markers) that are most concentrated in the endoplasmic reticulum (ER) l membranes are also found at high concentrations in the Golgi complex, a highly compartmentalized organelle (6-12).To examine this issue further, we have determined the intraceUular localization of a major ER membrane protein, cytochrome P450 (13), by electron microscope immunocytochemistry. We have also studied the structures of the oligosaccharide chains of two particular ER membrane glycoproteins (glucosidase II [14-16] and hexose-6-phosphate dehydrogenase [H6PDH; 17]) as well as those of a broad spectrum of membrane glycoproteins prepared from ER fractions of rat liver to seek evidence of Golgi-associated oligosaccharide processing of these glycoproteins.

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H V Gelboin

Benzo[alpha]pyrene metabolism, activation and carcinogenesis: role and regulation of mixed-function oxidases and related enzymes.

Hydroxylation of warfarin by human cDNA-expressed cytochrome P-450: a role for P-4502C9 in the etiology of (S)-warfarin-drug interactions

The effect of cigarette smoking on 7‐ethoxyresorufin O‐deethylase and other monooxygenase activities in human liver: analyses with monoclonal antibodies.

Immunohistochemical localization of cytochrome P-450 in rat brain

Retention of membrane proteins by the endoplasmic reticulum.

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