The effects of low concentrations of caffeine on spontaneous Ca release in isolated rat ventricular myocytes

Abstract

We have investigated the effects on spontaneous SR Ca release of modulating the sarcoplasmic reticulum ryanodine receptor (RyR) with low (<0.5mM) concentrations of caffeine. Experiments were performed on isolated rat ventricular myocytes. Intracellular Ca concentration was measured with Indo-1 or Fluo-3 in voltage-clamped cells. Spontaneous Ca release was produced by elevating external Ca to 5mM. Caffeine application increased the frequency of spontaneous release. Both the magnitude of the spontaneous Ca transients and the integral of the resulting Na–Ca exchange current were decreased by caffeine. The combination of increased frequency of spontaneous release and decreased Ca efflux per event meant that the Ca efflux per unit time was unaffected by low concentrations of caffeine. The SR Ca content was reduced by caffeine. The extra Ca efflux calculated from the Na–Ca exchange current integrals occurring during the initial burst of spontaneous activity on application of caffeine accounted for this reduction of SR Ca content. In contrast to these maintained effects on spontaneous release, caffeine had only transient effects on stimulated Ca release produced by depolarizing pulses. We conclude that stimulation of the RyR results in spontaneous release at SR Ca contents lower than those at which release would normally occur. Therefore, the balance between normal and spontaneous Ca release can be shifted by modulation of the RyR. This will have important consequences for arrhythmogenesis due to spontaneous Ca release.