Characteristics of the histamine-sensitive calcium store in vascular smooth muscle. Comparison with norepinephrine- or caffeine-sensitive stores.

Abstract

Using the microfluorometry of an intracellularly trapped calcium indicator dye, quin2, characteristics of intracellular Ca2+ store sites sensitive to histamine, norepinephrine, or caffeine were investigated using rat vascular smooth muscle cells in primary culture at 25 degrees C. With similar time courses, both histamine- and the norepinephrine-sensitive Ca2+ store sites were readily depleted in Ca2(+)-free medium and almost completely replenished by loading the cells with 1.0 mM Ca2+ solution for 3 min, while the caffeine-sensitive Ca2+ store site was little affected. In the absence of extracellular Ca2+, transient elevations of cytosolic Ca2+ repeatedly appeared in response to repetitive applications of histamine, norepinephrine, or caffeine, with progressive reductions in peak levels. Histamine released Ca2+ from the norepinephrine-sensitive store site and norepinephrine released Ca2+ from the histamine-sensitive one. On the other hand, caffeine had little effect on the histamine- and/or the norepinephrine-sensitive Ca2+ store site in Ca2(+)-free medium, and vice versa. We propose that the location and mechanisms of release of Ca2+ of the histamine-sensitive Ca2+ store site are identical with events at the norepinephrine-sensitive site, and differ from the caffeine-sensitive one, in vascular smooth muscle cells in primary culture.