Connexin expression and intercellular communication in two- and three-dimensional in vitro cultures of human bladder carcinoma.

The identification of gap-junctional proteins (connexins) and the preparation of related antibodies provides new tools to study patterns of intercellular communication in tumors. Focusing on the biology of human bladder carcinoma, we compared the expression of gap-junctional proteins (connexins Cx26, Cx32, and Cx43) with a dye-coupling assay for gap-junctional intercellular communication in three cell lines with different urothelial differentiation. The cell lines HCV-29, RT4, and J82 were initially grown as monolayers of different ages. Connexin expression was found mostly positive over the time of culture and found constantly negative only in J82 cells for Cx26 and HCV-29 cells for Cx32. In HCV-29 cells, Cx26 increased in positivity over the time of culture. Western blotting with the antibodies confirmed the findings. Comparisons of dye transfer using Lucifer Yellow showed an increase of coupling in the normal urothelial cell line HCV-29 in contrast to a decrease of coupling in the tumor cell lines. Data were extended by multicellular spheroid (MCS) co-cultures with the stromal fibroblast line N1. In three-dimensional cultures as MCSs, Cx26 was increased in proximity of RT4 tumor cells to fibroblasts, and positivity was maintained in J82 cells. E-cadherin expression in cell lines showed no change in dependence of growth state. The data suggest that Cx26 plays a role in negative growth control or differentiation of urothelial cells. Preliminary comparative data on normal and neoplastic urothelium show all three connexins in normal urothelium, in contrast to varying amounts of Cx43 and low amounts of Cx32 in tumors and evident loss of Cx26 in low-grade tumors. Discrepancies between monolayer and MCS cultures are most likely due to higher differentiation in MCSs, and the continuation of systematic work with heterologous MCSs is indicated for more information on the role of gap-junctional proteins in human tumors.