Termination of cytosolic Ca2+ signals:: Ca2+ reuptake into intracellular stores is regulated by the free Ca2+ concentration in the store lumen

The mechanism by which agonist-evoked cytosolic Ca2+ signals are terminated has been investigated, We measured the Ca2+ concentration inside the endoplasmic reticulum store of pancreatic acinar cells and monitored the cytoplasmic Ca2+ concentration by whole-cell patch-clamp recording of the Ca2+-sensitive currents, When the cytosolic Ca2+ concentration was clamped at the resting level by a high concentration of a selective Ca2+ buffer, acetylcholine evoked the usual depletion of intracellular Ca2+ stores, but without increasing the Ca2+-sensitive currents. Removal of acetylcholine allowed thapsigargin-sensitive Ca2+ reuptake into the stores, and this process stopped when the stores had been loaded to the pre-stimulation level. The apparent rate of Ca2+ reuptake decreased steeply with an increase in the Ca2+ concentration in the store lumen and it is this negative feedback on the Ca2+ pump that controls the Ca2+ store content. In the absence of a cytoplasmic Ca2+ clamp, acetylcholine removal resulted in a rapid return of the elevated cytoplasmic Ca2+ concentration to the pre-stimulation resting level, which was attained long before the endoplasmic reticulum Ca2+ store had been completely refilled, We conclude that control of Ca2+ reuptake by the Ca2+ concentration inside the intracellular store allows precise Ca2+ signal termination without interfering with store refilling.