Oncogenicity of rat prostate cells transformed in vitro with cadmium chloride

Abstract

Three rat ventral prostate (RVP) cell lines transformed after in vitro treatment with cadmium chloride (CdCl₂) and one control untreated cell line were tested for tumorigenicity in newborn rats. All three cadmium-transformed RVP cell lines induced tumors at the site of inoculation in 95–100% of animals. The fibroblastoid RVP56Cd cell line induced sarcomas, whereas the epithelial cell lines RVP47-3G and RVP47-3F produced highly differentiated squamous cell carcinomas. About 20% of animals injected with RVP47-3G developed lung and splenic metastases. The tumors could be further passaged into young rats. The sarcomas had a hyperdiploid modal chromosome number similar to that of the RVP56Cd cell line. Carcinomas induced by the RVP47-3G cell line had a large proportion of stromal metaphases. The modal chromosome number of these carcinomas was in the hypertriploid-hypotetraploid range, similar to that of the parental cell line. These results demonstrate that treatment of RVP cells with CdCl₂ in vitro results in neoplastic transformation. Since both fibroblastoid and epithelial prostate cells have undergone transformation, it seems possible that cadmium acted as a carcinogen without cell specificity. The susceptibility of these cells to the carcinogenic effect may be related to their resistance to cadmium. In the process of neoplastic transformation induced by CdCl₂ in RVP epithelial cells changes of squamous metaplasia occur, and probably precede acquisition of tumorigenicity.