Clonal evolution of a radon-induced rat lung tumor.

Radon gas may represent a source of pulmonary radio-contamination either in mine or in domestic conditions. Since epidemiological studies are controversial, as long as biological markers of the exposure to such agents will not be identified, the question will remain open. We have previously shown a direct dose-dependent relationship between lung cancer occurrence and radon inhalation of rats. In this study, we report a cytogenetic study of a radon-induced rat lung tumor. Chromosome banding and chromosome specific paintings were performed on cultures of both fresh and xenografted tumors. We found by analyzing 17 sub-clones that all karyotypes presented a translocation involving rat chromosomes (RNO) 8 and 20, and a terminal deletion of RNO 15p suggesting a monoclonal origin of this tumor. RNO 15 is homologous to numerous human chromosomes (HSA), in particular to HSA 3p14.2, 3p22-p24.1 and 3p24.2-p24.3, this human chromosome being frequently lost in human lung carcinomas. Besides sharing chromosome alteration involving common features with those found in human lung cancer, this rat lung carcinoma represents a useful model to study tumor progression with respect to clonal evolution.