Regulation of gap-junctional intercellular comnunication in transformation-sensitive and transformation-resistant BALB/c 3T3 cell variants

Abstract

BALB/c 3T3 A31-1-13 cells are highly susceptible to chemicalinduced cell transformation and their gap-junctional inter cellular communication (GJIC) is decreased when these cells become confluent. On the other hand, A31-1-1 cells do not show such a change in GJIC and are more resistant to chemical induction of transformation. In order to see which phenotypes are dominant, cells of these two types were hybridized and the hybrids were analyzed for their phenotypes for GJIC and induction of cell transformation. These two cell lines were tagged with neo^r gene or hygromycin-resistance gene respectively, and their hybrids were selected in medium containing G418 and hygromycin. Six independently isolated clones were characterized and all showed a loss of intercellular communication at confluence, suggesting that the phenotype of transfonnation-sensitive cell line A31-1-13 was dominant. However, when these hybrid cells were exposed to 3-methylcholanthrene, no transformed foci were produced, suggesting that the transformation-resistant phenotype is dominant. These results suggest that the regulation of GJIC and the susceptibility to chemical induction of transformation are genetically separate traits, and indirectly suggest that the loss of GJIC alone cannot explain the high susceptibilty of A31-1-13 cells to induction of transformation.