IP(3)and cyclic ADP-ribose induced Ca(2+) release from intracellular stores of pancreatic acinar cells from rat in primary culture.

We have measured Ca(2+)concentration changes in intracellular Ca(2+)stores ([Ca(2+)](store)) of rat pancreatic acinar cells in primary culture in response to the Ca(2+)mobilizing substances inositol-1,4,5-trisphosphate (IP(3)) and cyclic ADP-ribose (cADPr) using the Ca(2+)-sensitive dye mag Fura-2. We found that in this cell model IP(3)releases Ca(2+)in a quantal manner. Higher Ca(2+)concentration in the stores allowed a response to lower IP(3)concentrations ([IP(3)]) indicating that the sensitivity of IP(3)receptors to IP(3)is regulated by the Ca(2+)concentration in the stores. Cyclic ADPr, that modifies 'Ca(2+)-induced-Ca(2+)-release' (CICR), was also able to release Ca(2+)from intracellular stores of pancreatic acinar cells in primary culture. In comparison to the Ca(2+)ionophore ionomycin, which induced a maximal decrease (100%) in [Ca(2+)](store), a hypermaximal [IP(3)] (10 microM) dropped [Ca(2+)](store)by 87% and cADPr had no further effect. Cyclic ADPr reduced [Ca(2+)](store)by only 56% and subsequent IP(3)addition caused further maximal decrease in [Ca(2+)](store). Furthermore, a maximal [IP(3)] caused the same decrease in [Ca(2+)](store)in all regions of the cell, whereas cADPr dropped the [Ca(2+)](store)between 20 and 80% in different cell regions. From these data we conclude that in primary cultured rat pancreatic acinar cells at least three types of Ca(2+)stores exist. One type possessing both cADPr receptors and IP(3)receptors, a second type possessing only IP(3)receptors, and a third type whose Ca(2+)can be released by ionomycin but neither by IP(3)nor by cADPr. Copyright 2001 Harcourt Publishers Ltd.