4-Hydroxyaminoquinoline 1-oxide metabolism and DNA adducts in the early stage of tumorigenesis in rats: comparison of target organ pancreas with non-target organ liver.

In order to probe key early molecular events which might be responsible for the initiation of rat pancreatic tumorigenesis by 4-hydroxyaminoquinoline 1-oxide (4-HAQO), the uptake and metabolism of carcinogen and the formation and subsequent repair of DNA adducts were monitored under conditions of high and low tumorigenicity, respectively in partially pancreatectomized and non-operated animals, and in the liver, a non-target organ for this carcinogen. Although uptake of radioactively labelled 4-HAQO was higher in the liver than in the pancreas, generation of DNA adducts was 20 times greater in the latter organ. This discrepancy was probably due to a difference in the metabolic profile of 4-HAQO. The spectrum of the adducts was qualitatively similar in both organs. No qualitative or quantitative differences could be established under the high and low tumorigenicity conditions with regard to DNA adduct formation or persistence. The major difference was the presence of a relatively large extent of pancreatic DNA replication under the high tumorigenic condition. The results indicated that metabolic profile of 4-HAQO, quantity of DNA adducts and levels of DNA replication are key factors involved in initiation of tumorigenesis.