Abstract
Ca2+ sparks constitute the fundamental units of Ca2+ release in cardiomyocytes. Here we investigate how ryanodine receptors (RyRs) collectively generate these events by employing a transgenic mouse with a photoactivated label on RyR2. This allowed correlative imaging of RyR localization, by super-resolution photoactivated localization microscopy, and Ca2+ sparks, by high-speed imaging. Two populations of Ca2+ sparks were observed: stationary events and ‘traveling’ events that spread between neighboring RyR clusters. Traveling sparks exhibited up to eight distinct releases, sourced from local or distal junctional sarcoplasmic reticulum. Quantitative analyses showed that sparks may be triggered by any number of RyRs within a cluster, and that acute β-adrenergic stimulation augments intracluster RyR recruitment to generate larger events. In contrast, RyR ‘dispersion’ during heart failure facilitates the generation of traveling sparks. Thus, RyRs cooperatively generate Ca2+ sparks in a complex, malleable fashion, and channel organization regulates the propensity for local propagation of Ca2+ release.
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