Inositol 1,4,5-Trisphosphate (InsP3) and Calcium Interact to Increase the Dynamic Range of InsP3 Receptor-dependent Calcium Signaling

Abstract

The inositol 1,4,5-trisphosphate (InsP3)-gated Ca channel in cerebellum is tightly regulated by Ca (Bezprozvanny, I., J. Watras, and B.E. Ehrlich. 1991. Nature (Lond.). 351:751–754; Finch, E.A., T.J. Turner, and S.M. Goldin. 1991. Science (Wash. DC). 252:443–446; Hannaert-Merah, Z., J.F. Coquil, L. Combettes, M. Claret, J.P. Mauger, and P. Champeil. 1994. J. Biol. Chem. 269:29642–29649; Iino, M. 1990. J. Gen. Physiol. 95:1103–1122; Marshall, I., and C. Taylor. 1994. Biochem. J. 301:591–598). In previous single channel studies, the Ca dependence of channel activity, monitored at 2 μM InsP3, was described by a bell-shaped curve (Bezprozvanny, I., J. Watras, and B.E. Ehrlich. 1991. Nature (Lond.). 351:751–754). We report here that, when we used lower InsP3 concentrations, the peak of the Ca-dependence curve shifted to lower Ca concentrations. Unexpectedly, when we used high InsP3 concentrations, channel activity persisted at Ca concentrations as high as 30 μM. To explore this unexpected response of the channel, we measured InsP3 binding over a broad range of InsP3 concentrations. We found the well-characterized high affinity InsP3 binding sites (with Kd < 1 and 50 nM) (Maeda, N., M. Niinobe, and K. Mikoshiba. 1990. EMBO (Eur. Mol. Biol. Organ.) J. 9:61–67; Mignery, G., T.C. Sudhof, K. Takei, and P. De Camilli. 1989. Nature (Lond.). 342:192–195; Ross, C.A., J. Meldolesi, T.A. Milner, T. Satoh, S. Supattapone, and S.H. Snyder. 1989. Nature (Lond.). 339:468–470) and a low affinity InsP3 binding site (Kd = 10 μM). Using these InsP3 binding sites, we developed a new model that accounts for the shift in the Ca-dependence curve at low InsP3 levels and the maintained channel activity at high Ca and InsP3 levels. The observed Ca dependence of the InsP3-gated Ca channel allows the cell to abbreviate the rise of intracellular Ca in the presence of low levels of InsP3, but also provides a means of maintaining high intracellular Ca during periods of prolonged stimulation.