Regulation of inositol trisphosphate receptors by luminal Ca2+ contributes to quantal Ca2+ mobilization.

The quantal behaviour of inositol trisphosphate (InsP3) receptors allows rapid graded release of Ca2+ from intracellular stores, but the mechanisms are unknown. In Ca2+‐depleted stores loaded with Fura 2, InsP3 caused concentration dependent increases in the rates of fluorescence quench by Mn2+ that were unaffected by prior incubation with InsP3, indicating that InsP3 binding did not cause desensitization. When Fura 2 was used to report the luminal free [Ca2+] after inhibition of further Ca2+ uptake, submaximal concentrations of InsP3 caused rapid, partial decreases in fluorescence ratios. Subsequent addition of a maximal InsP3 concentration caused the fluorescence to fall to within 5% of that recorded after ionomycin. Addition of all but the lowest concentrations of InsP3 to stores loaded with the lower affinity indicator, Calcium Green‐5N, caused almost complete emptying of the stores at rates that increased with InsP3 concentration. The lowest concentration of InsP3 (10 nM) slowly emptied approximately 80% of the stores, but within 3 min the rate of Ca2+ release slowed leaving approximately 7 microM Ca2+ within the stores, which was then rapidly released by a maximal InsP3 concentration. In stores co‐loaded with both indicators, InsP3‐evoked Ca2+ release appeared quantal with Fura 2 and largely non‐quantal with Calcium Green‐5N; the discrepancy is not, therefore, a direct effect of the indicators. The fall in luminal [Ca2+] after activation of InsP3 receptors may, therefore, cause their inactivation, but only after the Ca2+ content of the stores has fallen by approximately 95% to < or = 10 microM.