In rabbit ventricular muscle, equilibration with 100 nM ryanodine virtually eliminated both Na-free caffeine contractures and rapid cooling contractures, indicating an inability of the SR to retain Ca.
Ryanodine prevents the sarcoplasmic reticulum from retaining calcium during Na-free perfusion in rabbit ventricular muscle, likely due to sarcolemmal calcium pump extrusion.
The ability of rabbit ventricular muscle sarcoplasmic reticulum (SR) to accumulate and retain Ca during Na-free perfusion was assessed using caffeine contractures and rapid cooling contractures (RCC). Muscles were exposed to a Na-free medium for 15 min, during which time a transient contracture developed and relaxed back to the resting tension level. Muscles were then either exposed to 20 mM caffeine or rapidly cooled to less than 5 degrees C, both of which produced large contractures. The magnitudes of those contractures are believed to be a relative index of SR Ca content. Reduction of extracellular Ca from 2 to 0.2 mM did not significantly alter the magnitude of either Na-free caffeine contractures or RCC. These are not the maximum contractures that can be obtained. The possibility that low extracellular Ca (Cao) may increase passive Ca permeability is suggested in explanation of this effect. After equilibration with 100 nM ryanodine, both Na-free caffeine contractures and RCC are virtually eliminated. This suggests that even if the SR could accumulate Ca during the initial Na-free exposure in the presence of ryanodine, it could not retain that Ca in Na-free medium. It is proposed that the sarcolemmal Ca pump can extrude Ca from the cells at a rate sufficient to deplete the ryanodine-treated SR. When removal of Na was accompanied by increase of Ko (to 12, 20, or 30 mM), the Na-free RCC were enhanced. Increasing Ko during Na-free superfusion in the presence of ryanodine resulted in demonstrable RCC that were graded with K and completely suppressed by nifedipine.(ABSTRACT TRUNCATED AT 250 WORDS)
Donald M. Bers (Tue,) reported a other. Ryanodine was evaluated on Sarcoplasmic reticulum calcium content assessed by caffeine and rapid cooling contractures. In rabbit ventricular muscle, equilibration with 100 nM ryanodine virtually eliminated both Na-free caffeine contractures and rapid cooling contractures, indicating an inability of the SR to retain Ca.