Power Output Is Increased After Phosphorylation of Myofibrillar Proteins in Rat Skinned Cardiac Myocytes

doi:10.1161/hh2401.101908

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Circulation Research. 2001;89:1184-1190
Published online before print November 15, 2001, doi: 10.1161/hh2401.101908

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	Contractile function

(Circulation Research. 2001;89:1184.)
© 2001 American Heart Association, Inc.

Cellular Biology

Power Output Is Increased After Phosphorylation of Myofibrillar Proteins in Rat Skinned Cardiac Myocytes

Todd J. Herron, F. Steven Korte, Kerry S. McDonald

From the Department of Physiology, University of Missouri School of Medicine, Columbia, Mo.

Correspondence to Kerry S. McDonald, PhD, Department of Physiology, School of Medicine, University of Missouri, Columbia, MO 65211. E-mail mcdonaldks{at}health.missouri.edu

ß-Adrenergic stimulation increases stroke volume inmammalian hearts as a result of protein kinase A (PKA)-inducedphosphorylation of several myocyte proteins. This study investigatedwhether PKA-induced phosphorylation of myofibrillar proteinsdirectly affects myocyte contractility. To test this possibility,we compared isometric force, loaded shortening velocity, andpower output in skinned rat cardiac myocytes before and aftertreatment with the catalytic subunit of PKA. Consistent withprevious studies, PKA increased phosphorylation levels of myosinbinding protein C and troponin I, and reduced Ca²⁺ sensitivityof force. PKA also significantly increased both maximal force(25.4±8.3 versus 31.6±11.3 µN [P<0.001,n=12]) and peak absolute power output (2.48±1.33 versus3.38±1.52 µW/mg [P<0.05, n=5]) during maximalCa²⁺ activations. Furthermore, PKA elevated power output atnearly all loads even after normalizing for the increase inforce. After PKA treatment, peak normalized power output increased ${approx}$ 20% during maximal Ca²⁺ activations (n=5) and ${approx}$ 33% during half-maximalCa²⁺ activations (n=9). These results indicate that PKA-inducedphosphorylation of myofibrillar proteins increases the poweroutput–generating capacity of skinned cardiac myocytes,in part, by speeding the step(s) in the crossbridge cycle thatlimit loaded shortening rates, and these changes likely contributeto greater contractility in hearts after ß-adrenergicstimulation.

Key Words: cardiac myocytes • ß-adrenergic stimulation • cardiac contractility • sarcomere proteins • protein kinase A

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				A. M. Murphy Another New Kinase Targets Troponin I Circ. Res., November 26, 2004; 95(11): 1043 - 1045. [Full Text] [PDF]

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				Y. Pi, D. Zhang, K. R Kemnitz, H. Wang, and J. W Walker Protein kinase C and A sites on troponin I regulate myofilament Ca2+ sensitivity and ATPase activity in the mouse myocardium J. Physiol., November 1, 2003; 552(3): 845 - 857. [Abstract] [Full Text] [PDF]

				F. S. Korte, K. S. McDonald, S. P. Harris, and R. L. Moss Loaded Shortening, Power Output, and Rate of Force Redevelopment Are Increased With Knockout of Cardiac Myosin Binding Protein-C Circ. Res., October 17, 2003; 93(8): 752 - 758. [Abstract] [Full Text] [PDF]

				J. Onishi, M. Kamitomo, V. M. Stiffel, and R. D. Gilbert Effects of Long-Term High-Altitude Hypoxia on Myocardial Protein Kinase A Activity and Troponin I Isoforms in Fetal and Nonpregnant Sheep Reproductive Sciences, May 1, 2003; 10(4): 189 - 193. [Abstract] [PDF]

				K. S. McDonald and T. J. Herron It Takes "Heart" to Win: What Makes the Heart Powerful? Physiology, October 1, 2002; 17(5): 185 - 190. [Abstract] [Full Text] [PDF]

				J. Layland and J. C Kentish Myofilament-based relaxant effect of isoprenaline revealed during work-loop contractions in rat cardiac trabeculae J. Physiol., October 1, 2002; 544(1): 171 - 182. [Abstract] [Full Text] [PDF]