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- Title
Intra-sarcoplasmic reticulum Ca<sup>2+</sup> oscillations are driven by dynamic regulation of ryanodine receptor function by luminal Ca<sup>2+</sup> in cardiomyocytes.
- Authors
Stevens, Sarah C.W.; Terentyev, Dmitry; Kalyanasundaram, Anuradha; Periasamy, Muthu; Györke, Sandor
- Abstract
During the cardiac cycle, the release of Ca2+ from the sarcoplasmic reticulum (SR) through the ryanodine receptor (RyR2) channel complex is controlled by the levels of cytosolic and luminal Ca2+ and alterations in these regulatory processes have been implicated in cardiac disease including arrhythmia. To better understand the mechanisms of regulation of SR Ca2+ release by Ca2+ on both sides of the SR membrane, we investigated SR Ca2+ release in a wide range of cytosolic Ca2+ concentrations ([Ca2+]cyt; 1–100 μm) in permeabilized canine ventricular myocytes by monitoring [Ca2+] inside the SR ([Ca2+]SR). Exposing myocytes to activating [Ca2+]cyt resulted in spontaneous oscillations of [Ca2+]SR due to periodic opening and closing of the RyR2s. Elevating [Ca2+]cyt (up to 10 μm) increased the frequency of [Ca2+]SR oscillations; however at higher [Ca2+]cyt (>50 μm) the oscillations diminished due to RyR2s staying perpetually open, resulting in depleted SR. Ablation of cardiac calsequestrin (CASQ2) altered the [Ca2+]cyt dependence of Ca2+ release oscillations such that oscillations were highly frequent at low [Ca2+]cyt (100 nm) but became diminished at moderate [Ca2+]cyt (10 μm), as determined in myocytes from calsequestrin-null versus wild-type mice. Our results suggest that under conditions of continuous activation by cytosolic Ca2+, RyR2s can periodically cycle between open and deactivated states due to effects of luminal Ca2+. Deactivation at reduced [Ca2+]SR appears to involve reduction of sensitivity to cytosolic Ca2+ and might be mediated by CASQ2. Inactivation by cytosolic Ca2+ plays no detectable role in controlling SR Ca2+ release.
- Publication
Journal of Physiology, 2009, Vol 587, Issue 20, p4863
- ISSN
0022-3751
- Publication type
Article
- DOI
10.1113/jphysiol.2009.175547