Abstract
Aims In heart cells, the mechanisms underlying refractoriness of the elementary units of sarcoplasmic reticulum (SR) Ca 2 release, Ca 2 sparks, remain unclear. We investigated local recovery of SR Ca 2 release using experimental measurements and mathematical modelling. Methods and resultsRepeated Ca 2 sparks were induced from individual clusters of ryanodine receptors (RyRs) in quiescent rat ventricular myocytes, and we examined how changes in RyR gating influenced the time-dependent recovery of Ca 2 spark amplitude and triggering probability. Repeated Ca 2 sparks from individual sites were analysed in the presence of 50 nM ryanodine with: (i) no additional agents (control); (ii) 50 M caffeine to sensitize RyRs; (iii) 50 M tetracaine to inhibit RyRs; or (iv) 100 nM isoproterenol to activate β-adrenergic receptors. Sensitization and inhibition of RyR clusters shortened and lengthened, respectively, the median interval between consecutive Ca 2 sparks (caffeine 239 ms; control 280 ms; tetracaine 453 ms). Recovery of Ca 2 spark amplitude, however, was exponential with a time constant of ∼100 ms in all cases. Isoproterenol both accelerated the recovery of Ca 2 spark amplitude (τ 58 ms) and shortened the median interval between Ca 2 sparks (192 ms). The results were recapitulated by a mathematical model in which SR [Ca 2] depletion terminates Ca 2 sparks, but not by an alternative model based on limited depletion and Ca 2-dependent inactivation of RyRs. ConclusionTogether, the results strongly suggest that: (i) local SR refilling controls Ca 2 spark amplitude recovery; (ii) Ca 2 spark triggering depends on both refilling and RyR sensitivity; and (iii) β-adrenergic stimulation influences both processes.
Original language | English |
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Pages (from-to) | 598-605 |
Number of pages | 8 |
Journal | Cardiovascular Research |
Volume | 91 |
Issue number | 4 |
DOIs | |
State | Published - 1 Sep 2011 |
Keywords
- Ca spark
- Calcium transient
- Computer modelling
- Triggered activity
- Ventricular myocyte