Increase in pancreatic exocrine secretion during uncoupling: evidence for a protein kinase C-independent effect.

It has been demonstrated that blockade of the normal communication between pancreatic acinar cells leads to an increase in amylase release. Although the physiological mechanisms that regulate the gating of gap junction channels are unknown, the involvement of protein kinase C (PKC) in the inhibition of cell coupling has been reported in various cell lines. Since the activation of PKC also stimulates amylase secretion of pancreatic acinar cells, we sought to determine whether blockers of gap junctions and activators of PKC modify basal secretion by a similar mechanism. Thus, we have studied the effects of heptanol and of 12-O-tetradecanoylphorbol-13-acetate (TPA) on the subcellular distribution of PKC, dye coupling, and amylase release of dispersed pancreatic acini. The data show that TPA activates PKC and stimulates amylase secretion without affecting the extensive dye coupling of acinar cells. By contrast, heptanol inhibits cell-to-cell coupling and increases enzyme output without altering the subcellular distribution of PKC. Heptanol also enhances significantly the secretion evoked by TPA. These results indicate that the stimulation of amylase release caused by uncoupling of acinar cells occurs by a mechanism(s) that does not involve the activation of PKC.