Abstract

Of the several models for lung carcinogenesis, two appear appropriate for chemoprevention studies based upon dose response, tumor type, and tumor localization. One model utilizes the direct-acting carcinogen methylnitrosourea (MNU), and the other utilizes a carcinogen (diethylnitrosamine) requiring metabolic activation. Tumors appear rapidly in both models (within 6 months), and the model systems are responsive to modulation by several classes of potential chemopreventive agents. For example, the retinoid N-(4-hydroxyphenyl) retinamide reduces the incidence of lung adenosquamous carcinoma, but retinol or beta-carotene are ineffective when administered alone. However, concomitant administration of these compounds reduces the incidence of non-neoplastic dysplasias as well as adenosquamous carcinomas of the lung. In the MNU system, retinoids in general have been ineffective in reducing the incidence of tracheobronchial squamous-cell carcinomas.