Role of gap junctions in lung neoplasia

Reduced gap junctional intercellular communication (GJIC) has been noted in many types of neoplastic cells and may contribute to the neoplastic phenotype. This study assessed GJIC (by fluorescent dye-coupling) and gap junction protein (connexin) expression in mouse and human lung carcinoma cell lines and investigated whether reduced GJIC was involved in their neoplastic phenotype. Dye-coupling and connexin43 (Cx43) expression were much lower in most of the carcinoma lines (16 of 22) compared to nontransformed lung epithelial cells. Other connexins were not detected. A poorly communicating mouse lung carcinoma cell line (E9) was transfected with Cx43 or transduced with Cx32 and several stable clones were isolated that had 2- to 4-fold increased dye coupling. When evaluated for growth in vitro, the population doubling times were increased and the saturation densities were decreased in the clones. When assessed for tumorigenicity, the parental E9 cells formed tumors with a 100% incidence (6/6 mice), whereas the clones varied in tumorigenic response (0-88% incidence). The best communicating clone (E9-2) was not tumorigenic. The highly communicating Cx32 clone, E9/32-9, gave a tumor incidence of 88%. These results suggest that restoration of GJIC by forced connexin expression can reduce the growth and tumorigenicity of lung carcinoma cells in a connexin-specific manner.