Biochemical events during initiation of rat hepatocarcinogenesis.

Carcinogenesis is a multistep, multistage process that begins with irreversible, but heritable damage to a single cell. The partial hepatectomy/diethylnitrosamine (DEN) model of rat hepatocarcinogenesis has been well characterized and many aspects of the stage of initiation are known. Recently, it has been suggested that hepatocytes expressing the placental isozyme of glutathione S-transferase (PGST) may be one population of initiated cells. Male Fischer rats were subjected to a 70% partial hepatectomy and at the peak of cell proliferation 24 h later were administered either the solvent trioctanoin, or 10 mg DEN/kg. The rats were administered 100 mg bromodeoxyuridine (BrdU)/kg 1 h prior to death at various times after DEN administration. Since initiation of the carcinogenesis process requires the division of cells containing DNA damage to induce mutations, we examined the concentration of alkylated adducts and the labeling index at various times after DEN administration. In addition, the time course of hepatic PGST expression was determined concurrent with the adduct concentration and labeling index. During the first day after DEN or solvent administration to a rat subjected to a 70% partial hepatectomy, a diurnal variation in labeling index was observed. A recovery to postsurgical labeling index levels was demonstrated for both the solvent- and DEN-treated groups by 7 days. The concentration of three promutagenic lesions was maximal at 6 h after DEN administration. The detectable level of the O6EG adduct was negligible by 24 h after DEN administration, while the two O-alkylpyrimidines, O2ET and O4ET, were retained for much longer periods. Single hepatocytes expressing PGST were observed by 2 days after DEN administration, while small foci of PGST-expressing hepatocytes could be reliably detected by 2 weeks. Two phases of PGST expression in single hepatocytes were observed. The first phase was maximal at day 3 and complete by day 6, while the second reached a plateau by day 8 and was maintained for the 28 days of the study. The presence of the three O-alkylation adducts during a time of enhanced cellular proliferation suggests that all three promutagenic adducts may contribute to the initiation that results in the partial hepatectomy/DEN model of rat hepatocarcinogenesis.