A Simplified Local Control Model of Calcium-Induced Calcium Release in Cardiac Ventricular Myocytes
Calcium (Ca 2+)-induced Ca 2+ release (CICR) in cardiac myocytes exhibits high gain and is graded. These properties result from local control of Ca 2+ release. Existing local control models of Ca 2+ release in which interactions between L-Type Ca 2+ channels (LCCs) and ryanodine-sensitive Ca 2+ rele...
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Veröffentlicht in: | Biophysical journal 2004-12, Vol.87 (6), p.3723-3736 |
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Sprache: | eng |
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Zusammenfassung: | Calcium (Ca
2+)-induced Ca
2+ release (CICR) in cardiac myocytes exhibits high gain and is graded. These properties result from local control of Ca
2+ release. Existing local control models of Ca
2+ release in which interactions between L-Type Ca
2+ channels (LCCs) and ryanodine-sensitive Ca
2+ release channels (RyRs) are simulated stochastically are able to reconstruct these properties, but only at high computational cost. Here we present a general analytical approach for deriving simplified models of local control of CICR, consisting of low-dimensional systems of coupled ordinary differential equations, from these more complex local control models in which LCC-RyR interactions are simulated stochastically. The resulting model, referred to as the coupled LCC-RyR gating model, successfully reproduces a range of experimental data, including L-Type Ca
2+ current in response to voltage-clamp stimuli, inactivation of LCC current with and without Ca
2+ release from the sarcoplasmic reticulum, voltage-dependence of excitation-contraction coupling gain, graded release, and the force-frequency relationship. The model does so with low computational cost. |
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ISSN: | 0006-3495 1542-0086 |
DOI: | 10.1529/biophysj.104.049973 |