PURPOSE AND METHODS: To investigate the potential role of an aberrant cellular DNA repair in target cells during malignant transformation we studied cell type-specific mRNA expression of the DNA repair protein O6-alkylguanine-DNA alkyltransferase (O6-AGT) in normal and regenerating rat liver, chronic hepatitis and preneoplastic liver lesions by in situ hybridization and semiautomatic image analysis. RESULTS: O6-AGT mRNA expression was found to be four to five times higher in hepatocytes than in nonparenchymal cells. A 1.9-fold increase in O6-AGT mRNA was observed after partial hepatectomy. Intraperitoneal injection of diethylnitrosamine led to a 1.3-fold and 2.6-fold rise in periportal and perivenous hepatocytes, respectively. Ethylnitrosourea produced an enhancement of mRNA levels up to 1.6-fold in hepatocytes without regional differences. In megalocytic hepatocytes of Long-Evans Cinnamon rats with chronic hepatitis, a 4.4-fold mRNA induction was found. In small preneoplastic lesions induced after chronic diethylnitrosamine-exposure, O6-AGT mRNA expression was identical to that of adjacent normal tissue. Intermediate and large lesions revealed 1.5- to 1.6-fold higher mRNA levels. CONCLUSIONS: These results suggest an induction of O6-AGT mRNA expression in hepatocellular target tissue under conditions of increased carcinogen sensitivity . The O6-AGT expression in early preneoplastic lesions did not differ from normal surrounding liver tissue, thus excluding the possibility that progression of preneoplasia in rat liver is associated with a deficient mRNA expression of this DNA repair protein. On the contrary, enhanced O6-AGT mRNA expression in more advanced foci and early neoplastic nodules may confer a selective advantage upon early malignant hepatocytes with regard to further tumor progression.
PURPOSE AND METHODS: To investigate the potential role of an aberrant cellular DNA repair in target cells during malignant transformation we studied cell type-specific mRNA expression of the DNA repair protein O6-alkylguanine-DNA alkyltransferase (O6-AGT) in normal and regenerating rat liver, chronic hepatitis and preneoplastic liver lesions by in situ hybridization and semiautomatic image analysis. RESULTS:O6-AGT mRNA expression was found to be four to five times higher in hepatocytes than in nonparenchymal cells. A 1.9-fold increase in O6-AGT mRNA was observed after partial hepatectomy. Intraperitoneal injection of diethylnitrosamine led to a 1.3-fold and 2.6-fold rise in periportal and perivenous hepatocytes, respectively. Ethylnitrosourea produced an enhancement of mRNA levels up to 1.6-fold in hepatocytes without regional differences. In megalocytic hepatocytes of Long-Evans Cinnamonrats with chronic hepatitis, a 4.4-fold mRNA induction was found. In small preneoplastic lesions induced after chronic diethylnitrosamine-exposure, O6-AGT mRNA expression was identical to that of adjacent normal tissue. Intermediate and large lesions revealed 1.5- to 1.6-fold higher mRNA levels. CONCLUSIONS: These results suggest an induction of O6-AGT mRNA expression in hepatocellular target tissue under conditions of increased carcinogen sensitivity . The O6-AGT expression in early preneoplastic lesions did not differ from normal surrounding liver tissue, thus excluding the possibility that progression of preneoplasia in rat liver is associated with a deficient mRNA expression of this DNA repair protein. On the contrary, enhanced O6-AGT mRNA expression in more advanced foci and early neoplastic nodules may confer a selective advantage upon early malignant hepatocytes with regard to further tumor progression.