Transforming growth factor-alpha in carcinogen-induced F344 rat hepatic foci

Abstract

Transforming growth factor-alpha (TGF alpha) is a positive growth regulator in epithelial cells, including hepatocytes. Overexpression of TGF alpha has been associated with increased growth and malignancy of end-stage cancers in humans and rodents. The overall aim of this study was to characterize TGF alpha staining in diethylnitrosamine-induced hepatic foci from male F344 rats with the hematoxylin and eosin (H and E) histological phenotype. The association between the individual focal DNA synthesis labeling index and the presence of TGF alpha was also examined. Hepatic foci were identified as eosinophilic, basophilic, clear cell, or mixed cell. Of these foci, 37.5% labeled positive for TGF alpha. There were distinct differences in the pattern of TGF alpha labeling between the different H and E histological phenotypes. Intense, uniform TGF alpha labeling was observed in eosinophilic foci. Basophilic foci labeled for TGF alpha diffusely uniform throughout the cytoplasm. In clear-cell foci, TGF alpha labeling occurred primarily along the periphery of the cell membrane. In mixed-cell foci, labeling occurred both along the periphery and diffusely throughout the cytoplasm. On those slides stained, glutathione-S-transferase (placental; GSTP) was detected in almost all eosinophilic and mixed-cell foci, whereas approximately half of the basophilic and clear-cell foci stained for GSTP. The presence of GSTP in a focus was not always associated with the presence of increased TGF alpha protein. All rat hepatic adenomas and the one carcinoma labeled positive for TGF alpha. Increased levels of TGF alpha protein were associated with increased DNA synthesis labeling index. The number of TGF alpha-positive foci with the highest DNA synthesis labeling indices were statistically higher than those with lower levels of DNA synthesis labeling. Although characteristic staining patterns for TGF alpha were associated with specific histological subtype, the role that TGF alpha plays in the progression of focal lesions to neoplasia requires further definition. High levels of TGF alpha protein appear to be acquired sometime during the hepatocarcinogenic process. It may be that early lesions that acquire high levels of TGF alpha are the ones to develop into hepatocellular carcinoma (e.g., hepatocellular carcinoma is determined very early in the carcinogenic process). It is apparent that further work is needed to delineate the role of TGF alpha in both rodent and human hepatocarcinogenesis.