Abstract
This report provides direct evidence for a dihydropyridine receptor/calcium channel in the insulin-secreting beta-cell line RINm5F. The receptor/channel can modulate the intracellular Ca++ concentration and the resultant insulin secretion by regulating the influx of extracellular Ca++ through dihydropyridine-sensitive voltage-dependent L-type Ca++ channels. Elevated extracellular K+ or the dihydropyridine Ca++ channel agonist, BAY k 8644 [methyl 1,4-dihydro-2,6-dimethyl-3-nitro-4-(2-trifluoromethyl- phenyl)pyridine-5-carboxylate], stimulated the uptake of 45Ca++, raised [Ca++]i, and increased insulin secretion in a concentration-dependent manner. These actions were inhibited by L-type Ca++ channel blockers including nitrendipine, verapamil and diltiazem. (+)-[3H]PN200-110 bound specifically with high affinity to RINm5F cell membranes (Kd approximately 200 pM). Specific binding was inhibited competitively by dihydropyridines whereas phenylalkylamines inhibited incompletely (+)-[3H]PN200-110 binding, consistent with an allosteric interaction. The benzothiazepine diltiazem had no effect on (+)-[3H]PN200-110 binding in the presence of Ca++, but increased binding allosterically in the absence of Ca++ (in the presence of EGTA). Maximal (+)-[3H]PN200-110 binding required divalent cations, with Mg++, Mn++ and Ba++ essentially as effective as Ca++ in reversing the effects of EGTA, whereas binding was not supported by Cd++ or La . Specific high affinity (+)-[3H]PN200-110 binding was also demonstrated in intact RINm5F cells and shown to be modulated by membrane potential. Depolarization of the cells by raising extracellular K+ from 5 to 80 mM increased the affinity of (+)-[3H]PN200-110 4- to 5-fold (decreased Kd) with no significant effect on the maximum number of binding sites.
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