Abstract
1. The effects of the Ca2+-ionophore A23187 and the non-metabolizable cholinergic agonist bethanechol on acinar cell membrane potentials and amylase release from the superfused mouse pancreas were studied. 2. In the presence of extracellular Ca2+ (2.56 mM), A23187 (10(-5)M) and bethanechol (3 X 10(-5)M) caused an equal increase in the release of amylase. Both stimulants depolarized theacinar cells, A23187 by 6-0 mV and bethanechol by 12-3 mV. 3. When Ca2+ and Mg2+ were removed from the superfusate, the ability of A23187 to increase the rate of amylase release was virtually abolished, while the effect of bethanechol remained unaltered. Similarly, in the absence of these divalent cations, A23187 did not cause depolarization of the acinar cells, while depolarization in response to bethanechol was largely normal. Consequently it is unlikely that cholinergic agonists initiate secretion by activating a Ca2+-ionophore-like mechanism in the cell membrane. 4. When the concentration of Ca2+ in the medium was raised to 10 mM was the only extracellular divalent cation present, the depolarization in response to A23187 was increased to 11-8 mV. When Mg2+ in a concentration of 10 mM was the only extracellular divalent cation, the depolarization was only 2-1 mV. 5. The Ca2+ dependent, A23187-induced depolarization was abolished in the absence of Na+ (Tris substitution). Addition of Na+ to the superfusate caused an immediate depolarization. 6. It is concluded that the Ca2+ dependent depolarization of pancreatic acinar cells induced by A23187 is not directly due to an increased divalent cation conductance. Our findings are consistent with the view that the depolarization is due to an increased influx of Na+ resulting from a Ca2+ mediated increase in Na+ permeability.