Source of activator calcium in isolated guinea pig and human gastric muscle cells

Abstract

The source of Ca2+ responsible for contraction was examined in suspensions of smooth muscle cells and in perfused single muscle cells from guinea pig and human stomach. In both preparations removal of Ca2+ from the medium or addition of the Ca2+ channel blocker methoxyverapamil had no effect on the contractile response to various agonists, including cholecystokinin octapeptide (CCK-8) and acetylcholine, but inhibited the response to high extracellular K+ by 76-82%. Repeated stimulation of guinea pig or human single muscle cells in Ca2+-free medium, or in the presence of methoxyverapamil caused a progressive decrease and eventual abolition of contractile response; response was restored on restitution of Ca2+ to the medium or elimination of methoxyverapamil. Measurement of 45Ca2+ content in guinea pig muscle cells showed that CCK-8 had no effect on the rate of Ca2+ influx but increased the rate of Ca2+ efflux transiently by sixfold. Net peak efflux coincided with the time of peak contraction and was stoichiometrically related to the degree of contraction. Equipotent, maximally effective contractile doses of CCK-8, acetylcholine, and methionine-enkephalin caused equivalent degrees of net Ca2+ efflux. The results indicate that contractile agonists cause release of Ca2+ from a depletable intracellular store in gastric muscle cells. The release is accompanied by a dose-dependent increase in Ca2+ efflux and is capable of sustaining an initial maximal contraction. Repeated contractile activity requires influx of Ca2+ from extracellular sources.