Enzymic control of irreversible binding of metabolically activated benzo(a)pyrene in perfused rat liver by monooxygenase activity

Addition of [³H]-benzo(a)pyrene to the perfusion medium of isolated rat livers results in irreversible binding of radioactivity to DNA, RNA and protein. Binding to DNA accounted for about 0.1% of the total radioactivity which was bound in livers from animals treated with oil or saline and was increased by a factor of 3–5 after pretreatment of the animals with -naphthoflavone or with phenobarbital. When the inhibitiors of monooygenase activity, -naphthoflavone or metyrapone, were present in the perfusion medium, irreversible binding was reduced in livers from both -naphthoflavone- and phenobarbital-pretreated animals, irrespective of the inhibitor used.In livers from animals treated with oil or saline protein and a RNA fraction containing tightly associated protein were able to bind [³H]-benzo(a)pyrene metabolites to about the same extent but after induction by pretreatment with -naphthoflavone binding to the RNA fraction was enhanced to a much higher extent than binding to the protein fraction. Pretreatment with phenobarbital did not result in an increased irreversible binding to RNA and protein.A considerable amount of 15–25% of the total radioactivity added to the perfusion medium was excreted into the bile after treatment of the animals with the tested inducers of monooxygenase activity compared to an excretion of 3% in animals treated with oil or saline.The results indicate that nucleic acid and protein adduct formation in the liver is controlled by the action of the cytochrome P-450-dependent monooxygenases.In part subject of the doctoral thesis of Erik Klaus, Fachbereich Biologie, University of Mainz