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RESEARCH PRODUCT
Induction of rat hepatic epoxide hydratase by dietary antioxidants
Regine KahlU. Wulffsubject
MaleCytochromePopulationThymus GlandToxicologyAntioxidantsMixed Function Oxygenaseschemistry.chemical_compoundCytochrome b5AnimalsButylated hydroxytolueneDrug InteractionsBenzopyreneseducationEpoxide HydrolasesPharmacologychemistry.chemical_classificationeducation.field_of_studyEthoxyquinbiologyChemistryDNADietRatsEnzymeLiverBiochemistryEnzyme InductionMicrosomebiology.proteinButylated hydroxyanisoledescription
Abstract Supplementation of rat diet with butylated hydroxytoluene (BHT), butylated hydroxyanisole, or ethoxyquin resulted in increased liver epoxide hydratase activity. The increase was obvious at 0.1% and amounted to 200–400% at 0.5%. Increased activity was accompanied by increased proportion of the epoxide hydratase band in SDS polyacrylamide gels, indicating induction of the enzyme. Ethoxycoumarin deethylase activity and cytochrome b5 concentrations were moderately elevated while cytochrome P-450 concentrations and aryl hydrocarbon hydroxylase activity remained at control levels. Preferential inhibition of monooxygenase activity by metyrapone and not 7,8-benzoflavone, as well as increased affinity of the reduced cytochrome P-450 for metyrapone as a ligand, indicated that the cytochrome P-450 population after BHT treatment was similar to that found after phenobarbital treatment. The antioxidants used in this study had no in vitro effect on epoxide hydratase activity and inhibited monooxygenase activity only in phenobarbital-stimulated microsomes but not in 3-methylcholanthrene-stimulated microsomes. Combined treatment with dietary antioxidants and intraperitoneally administered 3-methylcholanthrene resulted in marked induction of epoxide hydratase activity while the 3-methylcholanthrene-mediated increase in aryl hydrocarbon hydroxylase activity was partially depressed. Covalent binding of tritiated benzo[a]pyrene to calf thymus DNA was less effectively catalyzed by liver microsomes from animals fed antioxidants. The depression of covalent binding was marked after combined treatment with antioxidants and 3-methylcholanthrene. The shift in the microsomal enzyme pattern caused by antioxidants may be related to their inhibitory effects on chemical carcinogenesis.
year | journal | country | edition | language |
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1979-02-01 | Toxicology and Applied Pharmacology |