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  • Title: Substrate specificity of human liver cytochrome P-450 debrisoquine 4-hydroxylase probed using immunochemical inhibition and chemical modeling.
    Author: Wolff T, Distlerath LM, Worthington MT, Groopman JD, Hammons GJ, Kadlubar FF, Prough RA, Martin MV, Guengerich FP.
    Journal: Cancer Res; 1985 May; 45(5):2116-22. PubMed ID: 3921236.
    Abstract:
    A significant population of humans (5 to 10%) are phenotypic poor metabolizers of debrisoquine. We have isolated the cytochrome P-450 isozyme from rat liver responsible for this activity and have shown that antibodies raised against the protein are able to inhibit this catalytic activity in human liver microsomes (Distlerath, L. M., and Guengerich, F. P., Proc. Natl. Acad. Sci. USA, 81: 7348-7352, 1984). These antibodies were utilized to determine which metabolic transformations are linked to debrisoquine 4-hydroxylation in human liver microsomes using techniques of immunochemical inhibition. The antibodies almost completely inhibited debrisoquine 4-hydroxylation and bufuralol 1'-hydroxylation in microsomes prepared from several different human livers. The oxidation of the pyrrolizidine alkaloids lasiocarpine and monocrotaline were inhibited by roughly one-third. The antibodies did not inhibit N,N-dimethylnitrosamine N-demethylation, oxidation of vinylidene chloride to 2,2-chloroacetaldehyde, oxidation of trichloroethylene to chloral, N-oxidation of azoprocarbazine, morphine N-demethylation, diazepam N-demethylation, oxidation of benzo(a)pyrene to alkali-soluble metabolites, oxidation of benzo(a)pyrene 7,8-dihydrodiol to products covalently bound to DNA, the N- and ring-oxidation of 1- and 2-naphthylamine and 2-aminofluorene, or the conversion of aflatoxin B1 to DNA adducts or aflatoxin Q1. Studies with space-filling models of the drugs the metabolism of which is associated with debrisoquine 4-hydroxylase in the literature indicated that all can be fitted to a general structure in which a basic nitrogen is about 5 A away from the site of carbon hydroxylation and a hydrophobic domain is near the site of hydroxylation. These results may be useful in predicting which chemicals may or may not be metabolized in an atypical manner by a segment of the human population.
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