Regulation of calcium release by calcium inside the sarcoplasmic reticulum in ventricular myocytes

 To study the effects of changes in sarcoplasmic reticulum (SR) intraluminal Ca²⁺ on the Ca²⁺ release mechanism, we correlated the activity of single cardiac ryanodine receptor (RyR) channels, monitored in planar bilayers, with the properties of spontaneous elementary Ca²⁺ release events (sparks) in intact ventricular myocytes, monitored by scanning confocal microfluorimetry. Under both normal conditions and Ca²⁺ overload, induced by elevation of extracellular [Ca²⁺], Ca²⁺ sparks represented single populations of events. During Ca²⁺ overload, the frequency of sparks increased from 0.8 to 3.1 events per second per 100 μm line scanned, and their amplitude increased from 100 nM to 400 nM. The duration of the Ca²⁺ sparks, however, was not altered. Changes in the properties of Ca²⁺ sparks were accompanied by only an ≈ 30% increase in the SR Ca²⁺ content, as determined by emptying the intracellular Ca²⁺ stores using caffeine. When single Ca²⁺ release channels were incorporated into lipid bilayers and activated by cytoplasmic Ca²⁺ (≈ 100 nM) and ATP (3 mM), elevation of Ca²⁺ on the luminal side from 20 μM to 0.2–20 mM resulted in a 1.2-fold to 7-fold increase, respectively, in open probability (P _o). This potentiation of P _o was due to an increase in mean open time and frequency of events. The relative effect of luminal Ca²⁺ was greater at low levels of cytoplasmic [Ca²⁺] than at high levels of cytoplasmic [Ca²⁺], and no effect of luminal Ca²⁺ was observed to occur in channels activated by 0.5–50 μM cytoplasmic Ca²⁺ in the absence of ATP. Our results suggest that SR Ca²⁺ release channels are modulated by SR intraluminal Ca²⁺. These alterations in properties of release channels may account for, or contribute to, the mechanism of spontaneous Ca²⁺ release in cardiac myocytes Received: 15 May 1996 / Received after revision: 5 June 1996 / Accepted: 8 July 1996