Cellular interaction between mouse pancreatic alpha-cell and beta-cell lines: possible contact-dependent inhibition of insulin secretion.

The endocrine cells in the pancreatic islet have cellular communication between the heterotypic cells as well as the homotypic cells. The present study was conducted to elucidate the cellular interaction between pancreatic alpha cells and beta cells utilizing differentiated mouse cell lines (i.e., alphaTC clone 6 and betaTC cells). Co-culture of these two cell lines on a gyratory shaker generated numerous cellular aggregates of homogenous size within 48 h. Immunohistochemical staining for insulin and glucagon demonstrated that betaTC cells were located in the central core of each aggregate, while alphaTC cells formed a mantle layer surrounding the betaTC cells. This segregation was observed regardless of the ratios of the two cell types employed. Although glucagon at concentrations of 10(-8) M or higher stimulated insulin secretion from betaTC cells in both monolayer and aggregates, an increase in the ratio of alphaTC/betaTC cells in aggregate cultures was accompanied by a decrease in secreted insulin and a rise in intracellular insulin content of the betaTC component. The inhibitory effect of alphaTC cells on betaTC insulin secretion was not limited to aggregate culture, since insulin secretion from betaTC cells was also suppressed, and intracellular insulin content increased, by co-culture of alphaTC with betaTC cells in monolayer. On the other hand, the secreted and intracellular insulin of betaTC cells was not affected by alphaTC cells in a Transwell co-culture system in which direct cell-to-cell contacts were prevented by a semipermeable membrane that permitted chemical communication via medium metabolites. These data suggest that the insulin secretion from betaTC cells may be inhibited possibly as a result of the contact with alphaTC cells.