Effects of high concentrations of secretagogues on the morphology and secretory activity of the pancreas: A role for microfilaments

Summary Cholecystokinin (CCK) and acetylcholine, at concentrations greater than those required for maximal pancreatic enzyme secretion, elicit a submaximal secretory response. The mechanism for this secretagogue-induced unresponsiveness is unknown. Using isolated pancreatic acini of the mouse, we now find that high concentrations of secretagogues also induce a profound alteration in acinar morphology, characterized by the formation of spherical protrusions on the basal surface of the cells. Since both the determination of cell shape and exocytosis may involve calcium and contractile proteins, we used a calcium-free medium and cytochalasin B (CB) to evaluate the importance of a contractile mechanism in the secretory and morphological effects of high concentrations of CCK-octapeptide (CCK₈). Incubation in a calcium-free medium partially blocked CCK-induced unresponsiveness, but brought about dissociation of the acini. CB at a concentration of 3 g/ml caused the disappearance of apical microfilaments and, most strikingly, completely prevented the morphological alteration induced by CCK₈. Furthermore, CB converted the biphasic dose-response curve for CCK₈-induced amylase release to a monophasic shape, such that the amylase release stimulated by a high concentration of CCK₈ (10 nM) was augmented. It is concluded, therefore, that a contractile process involving microfilaments may mediate secretagogue-induced unresponsiveness in pancreatic acinar cells.