
Characterization of the putative Ca2+-gated Ca2+ channel of sarcoplasmic reticulum, which is thought to mediate Ca2+-induced Ca2+ release, was carried out in order to elucidate the mechanism of Ca2+-induced Ca2+ release. Heavy and light fractions of fragmented sarcoplasmic reticulum isolated from rabbit skeletal muscle were loaded passively with Ca2+, and then passive Ca2+ efflux was measured under various conditions. The fast phase of the Ca2+ efflux depended on the extravesicular free Ca2+ concentration and was assigned to the Ca2+ efflux through the Ca2+-gated Ca2+ channel. Vesicles with the Ca2+-gated Ca2+ channels comprised about 85% of the heavy fraction and about 40% of the light fraction. The amount of Ca2+ loaded in FSR was found to be much larger than that estimated on the basis of vesicle inner volume and the equilibration of intravesicular with extravesicular Ca2+, indicating Ca2+ binding inside FSR. Taking this fact into account, the Ca2+ efflux curve was quantitatively analyzed and the dependence of the Ca2+ efflux rate constant on the extravesicular free Ca2+ concentration was determined. The Ca2+ efflux was maximal, with the rate constant of 0.75 s-1, when the extravesicular free Ca2+ was at 3 microM. Caffeine increased the affinity for Ca2+ of Ca2+-binding sites for opening the channel with only a slight change in the maximum rate of Ca2+ efflux. Mg2+ inhibited the Ca2+ binding to the sites for opening the channel while procaine seemed to inhibit the Ca2+ efflux by blocking the ionophore moiety of the channel.
Kinetics, Sarcoplasmic Reticulum, Muscles, Magnesium Chloride, Animals, Calcium, Magnesium, Rabbits, Mathematics, Procaine
Kinetics, Sarcoplasmic Reticulum, Muscles, Magnesium Chloride, Animals, Calcium, Magnesium, Rabbits, Mathematics, Procaine
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