Thiol reagents increase the affinity of the inositol 1,4,5-trisphosphate receptor.

Thiol reagents have been shown to increase cytosolic Ca2+ in several cell types. In non-muscle cells, these agents induce Ca2+ spikes by increasing the sensitivity of the intracellular Ca2+ stores to D-myo-inositol-1,4,5-trisphosphate (InsP3). We have investigated the effects of thimerosal and oxidized glutathione on the binding properties of the InsP3 receptor in permeabilized hepatocytes and liver and cerebellar membranes. Thimerosal, at the maximal concentration of 100 microM, decreased the KD for the InsP3 binding to permeabilized hepatocytes and cerebellar membranes from 16 to 3 nM and from 25 to 8 nM, respectively, without affecting the maximal binding capacities. On liver membranes, both thimerosal and high Ca2+ concentrations increased the affinity for InsP3 binding. The Ca2+ and the thimerosal effects were differentiated by kinetic experiments. In low Ca2+ media, two kinetic components were identified and thimerosal decreased the rate of dissociation from both these components without affecting the rate of association. In the high Ca2+ medium, a single kinetic component was found with a very slow rate of dissociation. These data suggest that the InsP3 receptor exists in different states. The high-affinity inactive state induced by high Ca2+ concentrations displays slow rates of association and dissociation. The binding properties of the receptor in its active state can be regulated by thiol reagents which increase the affinity by decreasing the dissociation rate constants. At a resting concentration of 100-200 nM, Ca2+ has two effects: it increases the affinity of the active state of the receptor as thiol reagents do and transforms part of the receptors into the inactive high-affinity state.