Reduced levels of connexin43 in cervical dysplasia: inducible expression in a cervical carcinoma cell line decreases neoplastic potential with implications for tumor progression.

Loss of gap junctional intercellular communication (GJIC) has been linked to aberrant proliferation and an enhanced neoplastic phenotype. Many human tumors, including the cervical carcinoma line HeLa, have been reported to be deficient in expression of the gap junction protein connexin43 (Cx43) and GJIC. To determine if this is an early event in carcinogenesis, we utilized immunohistochemistry to screen a series of cervical biopsy samples and demonstrated a major reduction in Cx43 expression in dysplastic regions compared to normal epithelia. To determine whether this loss influences the neoplastic behavior of cervical carcinoma cells, we have constructed HeLa cell lines in which Cx43 expression can be induced in response to doxycycline. This approach allows for the discrimination of Cx43-mediated effects from those due to pre-existing clonal heterogeneity. Cx43 induction in these cells led to assembly of functional junctions but did not alter growth control in vitro as measured by logarithmic growth, saturation density or focus formation when in co-culture with growth-controlled fibroblasts. However, Cx43 induction decreased two indices of neoplasia: it reduced anchorage-independent growth and attenuated the growth rate of tumor xenografts. These results indicate that established HeLa cell lines are unresponsive to Cx43-mediated signals which are thought to mediate growth control of non-transformed cells, however, Cx43 expression can still reduce aspects of the neoplastic phenotype of these cells, indicating that loss of connexin signaling in dysplastic cells may contribute to their neoplastic progression.

Correlation between growth control, neoplastic potential and endogenous connexin43 expression in HeLa cell lines: implications for tumor progression.

A HeLa cell line, obtained from the ATCC, was cloned and found to exhibit a spectrum of in vitro and in vivo growth characteristics as well as variable expression of endogenous connexin43 (Cx43), a widely expressed gap junction protein implicated in growth control. The majority of clones expressed functional Cx43, which contrasted with previous studies reporting that HeLa cells are completely negative for Cx43 mRNA/protein expression. This endogenous Cx43 expression correlated with increased growth control: Cx43-positive clones exhibited a decreased saturation density and a diminished growth capacity when in co-culture with growth-controlled normal cells in constrast to Cx43-negative clones. Endogenous Cx43 expression was negatively correlated with neoplastic potential as evidenced by attenuated anchorage-independent growth and decreased tumorigenicity in immunodeficient mice. Treatment of Cx43-negative cells with 5-aza-2'-deoxycytidine resulted in expression of Cx43, suggesting gene silencing via DNA methylation. These results support the concept of growth control via junctionally transmitted signals and suggest an epigenetic mechanism for tumor cells to circumvent this control during carcinogenesis. Moreover, the heterogeneous nature of this cell line and the ease of connexin43 gene induction suggest caution in the interpretation of results involving gene transfection using noninducible gene expression systems.