Kinetic studies of calcium-induced calcium release in cardiac sarcoplasmic reticulum vesicles.

Fast Ca(2+) release kinetics were measured in cardiac sarcoplasmic reticulum vesicles actively loaded with Ca(2+). Release was induced in solutions containing 1.2 mM free ATP and variable free [Ca(2+)] and [Mg(2+)]. Release rate constants (k) were 10-fold higher at pCa 6 than at pCa 5 whereas Ryanodine binding was highest at pCa < or =5. These results suggest that channels respond differently when exposed to sudden [Ca(2+)] changes than when exposed to Ca(2+) for longer periods. Vesicles with severalfold different luminal calcium contents exhibited double exponential release kinetics at pCa 6, suggesting that channels undergo time-dependent activity changes. Addition of Mg(2+) produced a marked inhibition of release kinetics at pCa 6 (K(0.5) = 63 microM) but not at pCa 5. Coexistence of calcium activation and inhibition sites with equally fast binding kinetics is proposed to explain this behavior. Thimerosal activated release kinetics at pCa 5 at all [Mg(2+)] tested and increased at pCa 6 the K(0.5) for Mg(2+) inhibition, from 63 microM to 136 microM. We discuss the possible relevance of these results, which suggest release through RyR2 channels is subject to fast regulation by Ca(2+) and Mg(2+) followed by time-dependent regulation, to the physiological mechanisms of cardiac channel opening and closing.