Altered Cardiac Sarcoplasmic Reticulum Function of Intact Myocytes of Rat Ventricle During Metabolic Inhibition

Abstract

—Changes in the behavior of the sarcoplasmic reticulum (SR) in rat ventricular myocytes were investigated under conditions of metabolic inhibition using laser-scanning confocal microscopy to measure intracellular Ca²⁺ and the perforated patch-clamp technique to measure SR Ca²⁺ content. Metabolic inhibition had several effects on SR function, including reduced frequency of spontaneous releases of Ca²⁺ (sparks and waves of Ca²⁺-induced Ca²⁺ release), increased SR Ca²⁺ content (79.4±5.7 to 115.2±6.6 μmol/L cell volume [mean±SEM; P2+ release, slower reuptake of Ca²⁺ into the SR (rate constant of fall of Ca²⁺ reduced from 8.5±1.1 s⁻¹ in control to 5.2±0.4 s⁻¹ in metabolic inhibition [P2+ channels with Cd²⁺ (100 μmol/L) did not reproduce the effects of metabolic inhibition on spontaneous Ca²⁺ sparks. These results are evidence of inhibition of both Ca²⁺ release and reuptake mechanisms. Reduced frequency of release could be attributable to either of these effects, but the increased SR Ca²⁺ content at the time of reduced frequency of spontaneous release of Ca²⁺ shows that the dominant effect of metabolic inhibition is to inhibit release of Ca²⁺ from the SR, allowing the accumulation of greater than normal amounts of Ca²⁺. In the context of ischemia, this extra accumulation of Ca²⁺ would present a risk of potentially arrhythmogenic, spontaneous release of Ca²⁺ on reperfusion of the tissue.