Calcium Sensitivity of Isometric Tension Is Increased in Canine Experimental Heart Failure

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Circulation Research. 1995;76:781-789

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(Circulation Research. 1995;76:781-789.)
© 1995 American Heart Association, Inc.

Articles

Calcium Sensitivity of Isometric Tension Is Increased in Canine Experimental Heart Failure

Matthew R. Wolff, Larry F. Whitesell, Richard L. Moss

From the Departments of Medicine and Physiology, University of Wisconsin School of Medicine, Madison.

Abstract To examine the role of alterations in myofibrillar functionin chronic heart failure, we determined isometric tension–pCa relationsin permeabilized myocardium from a canine model of dilated cardiomyopathy(DCM) produced by chronic rapid pacing. In the initial seriesof experiments, seven dogs were paced at 250 beats per minute for28.9±7.0 days, resulting in ventricular dilatation andreduced ejection fractions by echocardiography and elevatedintracardiac filling pressures. Isometric tension–pCa relationswere measured by using mechanically disrupted and permeabilizedmyocyte-sized preparations obtained from left ventricular biopsiesbefore (n=11) and after (n=10) chronic rapid pacing–inducedheart failure. Resting sarcomere length (SL) was set at 2.35µm, and preparations had low end compliance (SL was 2.23±0.03µm during maximal activation). Passive tension (2.1±1.0versus 2.4±0.6 mN/mm²) and maximal Ca²⁺-activated tension(25.9±9.3 versus 27.8±6.8 mN/mm²) were similarfor control and DCM preparations, respectively. However, thecalcium sensitivity of isometric tension was increased in failingmyocardium (pCa₅₀ 5.95±0.11 [DCM] versus 5.83±0.10[control], P=.001). Treatment of myofibrillar preparations withthe catalytic subunit of protein kinase A decreased calciumsensitivity of tension to a greater degree in failing preparations(shift of pCa₅₀ from 6.04±0.06 to 5.75±0.09, n=7)than in nonfailing preparations (5.91±0.08 to 5.74±0.07,n=8), and isometric tension–pCa relations in the two groupswere not significantly different after protein kinase A treatment.These data suggest that the increased calcium sensitivity inDCM may be due at least in part to a reduction of the adrenergicallymediated phosphorylation of myofibrillar regulatory proteins.This increased calcium sensitivity of isometric tension maypartially compensate for decreases in systolic calcium transientsin DCM but may also contribute to the diastolic dysfunctionthat accompanies this condition.

Key Words: dilated cardiomyopathy • Ca²⁺ sensitivity • isometric tension

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