Ca flux, contractility, and excitation-contraction coupling in hypertrophic rat ventricular myocytes

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Ca flux, contractility, and excitation-contraction coupling in hypertrophic rat ventricular myocytes

Eileen McCall¹, Kenneth S. Ginsburg¹, Rosana A. Bassani¹, Thomas R. Shannon¹, Ming Qi¹, Allen M. Samarel², and Donald M. Bers¹

Departments of ¹ Physiology and ² Medicine, Loyola University Medical Center, Maywood, Illinois 60153

Left ventricular hypertrophy (~40%) was induced in rats by banding of the abdominal aorta. After 16 wk, ventricular homogenateswere prepared for biochemical measurements and ventricular myocyteswere isolated for functional studies. In myocytes, the effectsof banding on intracellular Ca handling, contraction, and excitation-contraction(E-C) coupling were determined using indo 1 fluorescence and wholecell voltage clamp. After steady-state field or voltage-clampstimulation to load the sarcoplasmic reticulum (SR), SR Ca contentassessed by caffeine-induced Ca transients was the same in shamand banded groups. Despite this, cell shortening amplitudes weresignificantly depressed in the banded group, suggesting alteredcontractile properties. In banded rats, the SR Ca-adenosinetriphosphatase(Ca-ATPase) mRNA level was reduced, as was homogenate thapsigargin-sensitiveSR Ca-ATPase, but cytosolic free Ca concentration ([Ca]_i) declineattributed to SR Ca-ATPase activity in intact cells was not slowed.Banding also reduced Na/Ca exchange mRNA level but did not affecteither Na-dependent sarcolemmal ⁴⁵Ca transport in homogenate or the rate of [Ca]_i decline in intactcells attributed to Na/Ca exchange (during caffeine-induced contractures).Banding also did not change the rate of [Ca]_i decline mediatedby the combined function of the mitochondrial Ca uptake and sarcolemmalCa-ATPase in intact cells. Ca current (I_Ca) density and voltagedependence were the same in sham and banded groups. Ryanodinereceptor mRNA, protein content, and ryanodine affinity were alsounchanged in the banded group. At 1 mM extracellular Ca concentration([Ca]_o), banding did not affect E-C coupling efficacy in intactcells under voltage clamp (i.e., same contraction for given I_Caand SR Ca load). However, when [Ca]_o was reduced to 0.5 mM, theefficacy of E-C coupling was greatly depressed in the banded group(even though I_Ca and SR Ca content were matched). In summary,unloaded myocyte contraction was depressed in these hypertrophichearts, but Ca transport was little altered, at 1 mM [Ca]_o. However,reduction of [Ca]_o to 0.5 mM appears to unmask a depressed fractionalSR Ca release in response to a given I_Ca trigger and SR Ca load.

cardiac muscle; sarcoplasmic reticulum; calcium current

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