Research strategy in industrial toxicology.

While much of industrial toxicology is observational in character, pursuit of specific research is needed to facilitate the overall evaluation of potential toxicity for man. Two such areas are the application of physiologic pharmacokinetic models to inter-species extrapolation of toxic effects and an understanding of the role of cellular oncogenes in the process of spontaneous tumor formation in animals. A physiologic pharmacokinetic model was developed for methylene chloride (MeCl2) which describes the fate of MeCl2 and its metabolic products in numerous species including the mouse, rat, hamster and man. This model has been used to predict specific tissue concentrations of critical metabolic reaction products in target tissues between animals and man. If it is assumed that toxicity is related to target tissue concentrations such methodology provides a means of relating interspecies toxicity to absorbed dose. This methodology precludes the necessity of using arbitrary factors in relating animal toxicity data to man. A particular controversial issue in animal toxicology is the significance of the enhancement of animal tumors in tissues which already have a high spontaneous incidence. Without a better understanding of the basic process of spontaneous tumor formation it remains difficult to interpret results from chemical treatment. In particular spontaneous liver tumors in the B6C3F1 mouse have been shown to contain an activated cellular oncogene identified as H-RAS. The activated cellular oncogene is present in tumor tissue only and not in surrounding normal liver tissue. Of particular significance is the high frequency of activation in these mouse liver tumors (82%) compared to a 10-20% incidence of oncogenes present in a variety of human tumors. This suggests the ultra sensitivity of this mouse strain to liver tumor induction. Additional studies in progress are designed to determine whether genotoxic and nongenotoxic hepatocarcinogens show differences in oncogene activation.