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Research Article Free access | 10.1172/JCI107836

Influence of Calcium on the Inotropic Actions of Hyperosmotic Agents, Norepinephrine, Paired Electrical Stimulation, and Treppe

James T. Willerson, J. Stanley Crie, Robert C. Adcock, Gordon H. Templeton, and Kern Wildenthal

Department of Physiology, Pauline and Adolph Weinberger Laboratory for Cardiopulmonary Research

Department of Internal Medicine, The University of Texas Southwestern Medical School, Dallas, Texas 75235

Find articles by Willerson, J. in: PubMed | Google Scholar

Department of Physiology, Pauline and Adolph Weinberger Laboratory for Cardiopulmonary Research

Department of Internal Medicine, The University of Texas Southwestern Medical School, Dallas, Texas 75235

Find articles by Crie, J. in: PubMed | Google Scholar

Department of Physiology, Pauline and Adolph Weinberger Laboratory for Cardiopulmonary Research

Department of Internal Medicine, The University of Texas Southwestern Medical School, Dallas, Texas 75235

Find articles by Adcock, R. in: PubMed | Google Scholar

Department of Physiology, Pauline and Adolph Weinberger Laboratory for Cardiopulmonary Research

Department of Internal Medicine, The University of Texas Southwestern Medical School, Dallas, Texas 75235

Find articles by Templeton, G. in: PubMed | Google Scholar

Department of Physiology, Pauline and Adolph Weinberger Laboratory for Cardiopulmonary Research

Department of Internal Medicine, The University of Texas Southwestern Medical School, Dallas, Texas 75235

Find articles by Wildenthal, K. in: PubMed | Google Scholar

Published October 1, 1974 - More info

Published in Volume 54, Issue 4 on October 1, 1974
J Clin Invest. 1974;54(4):957–964. https://doi.org/10.1172/JCI107836.
© 1974 The American Society for Clinical Investigation
Published October 1, 1974 - Version history
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Abstract

To analyze the interaction of calcium ion concentration with hypertonic agents and with other inotropic interventions, isolated right ventricular cat papillary muscles were studied under isometric conditions in Krebs-Ringer bicarbonate solution. Extracellular calcium concentrations were varied between 2.5 and 11.0 mM. Maximal inotropic effects occurred between 5 and 8.0 mM calcium and further elevation to 11.0 mM was without additional influence. The effect of hyperosmotic sucrose and mannitol on papillary muscle performance was compared with that of 10-6 M norepinephrine at calcium concentrations of 2.5 and 10.0 mM and with paired electrical stimulation in 10.0 mM calcium. Both norepinephrine and the hyperosmotic agents produced significant increases in developed tension and in the maximal rate of tension rise (dT/dt) in Krebs-Ringer in 2.5 and 4.0 mM calcium. In 10 mM calcium norepinephrine increased developed tension and dT/dt, but sucrose and mannitol caused no change or small reductions in both. Paired electrical stimulation, like hyperosmolality, caused no increase in dT/dt in 10 mM calcium.

The presence of a potent pharmacological inhibitor of systolic calcium transfer across the cell membrane (D600, 10-6 M) reduced developed tension and dT/dt by 76±2.7 and 74±2.0%, respectively, and prevented and in fact reversed the expected increase in dT/dt associated with an increase in rate of stimulation (treppe). However, hypertonic mannitol and paired pacing persisted in causing marked increases in developed tension and dT/dt even in the presence of D600, suggesting that their inotropic effects are not dependent on increased intracellular transfer of calcium during systole through cell membrane channels in which D600 acts as a competitive inhibitor.

The results of these studies suggest that apparent functional saturation of intracellular calcium receptor sites eliminates any additional inotropic effect of hyperosmolality or paired pacing. The data are compatible with the hypothesis that the inotropic effects of hyperosmolality and of paired pacing result from an increase in calcium concentration at the myofilaments during contraction. The increase induced by hyperosmolality might occur because of an increase in the total amount of calcium released into the cytosol with each action potential and/or as a passive consequence of cellular dehydration. Norepinephrine has the capacity to increase contractility even when intracellular calcium receptor sites appear to be functionally saturated, suggesting that it may act at least in part by a mechanism that is independent of changes in net intracellular calcium concentration.

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