Formation and persistence of a DNA adduct in rodents treated with N-nitrosopyrrolidine.

The rate of formation and the persistence of an exocyclic guanine adduct formed in DNA of rodents treated with various doses of N-nitrosopyrrolidine (NPYR) have been determined. NPYR is hepatocarcinogenic to the rat and forms a covalent adduct in liver DNA; this adduct was recently identified as 2-amino-6,7,8,9-tetrahydro-9-hydroxypyrido[2, 1-f]purine-4[3H]-one. Dose-dependent amounts of adduct formed in liver, kidney and lung DNA of rats, hamsters and mice given oral doses (56-900 mg/kg body wt) of NPYR. The persistence of the adduct in DNA after administration of low doses of NPYR to rats was greatest in the target organ, i.e. the liver; at high doses of NPYR, adduct levels in DNA changed little over a period of at least 72 h. In the hamster, in which NPYR is carcinogenic to the lung but apparently not the liver, the adduct level in liver DNA was an order of magnitude greater than in lung or kidney DNA for a dose of NPYR of 225 or 900 mg/kg body wt; persistence of the adduct in lung DNA was only slightly longer than in liver DNA. The formation and persistence of the 7,8-pyridoguanine adduct in the rat appeared to be consistent with the organotropy of this carcinogen, but this was not true for the hamster, a species that seems to be more resistant to induction of liver and kidney cancer by this carcinogen. Imidazole, an inhibitor of microsomal amine oxidase, and disulfiram, an inhibitor of aldehyde dehydrogenase, decreased metabolic activation of NPYR to an alkylating intermediate; inducers and inhibitors of cytochrome P450 monooxygenases had little effect on the metabolic activation of NPYR to an alkylating agent.