Rate of Tension Development in Cardiac Muscle Varies With Level of Activator Calcium

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Circulation Research. 1995;76:154-160

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Rate of Tension Development in Cardiac Muscle Varies With Level of Activator Calcium

Matthew R. Wolff, Kerry S. McDonald, Richard L. Moss

From the Departments of Medicine (M.R.W.) and Physiology (K.S.M., R.L.M.), University of Wisconsin School of Medicine, Madison.

Abstract In skeletal muscle, the rate of transition from weaklybound to force-generating crossbridge states increases as calciumconcentration is increased. To examine possible calcium sensitivityof this transition in cardiac muscle, we determined the kineticsof isometric tension development during steady activation in detergent-permeabilizedrat ventricular trabeculae (n=7) over a range of calcium concentrations.Force-generating crossbridges in activated trabeculae were disruptedby a brief, rapid release and restretch equivalent to 20% musclelength (15°C), which resulted in a subsequent phase of tensionredevelopment that was well fit by a monoexponential function(rate constant, k_tr). Sarcomere length was monitored by laserdiffraction and held constant during tension redevelopment byan iterative adaptive feedback control system. The k_tr increasedfrom 3.6±0.8 s^-1 at the lowest calcium concentrationstudied (pCa 5.9) to 9.5±1.3 s^-1 during maximal activation(pCa 4.5). The relationship between relative k_tr and relative tensionwas approximately linear over a wide range of [Ca²⁺] (r²=.94).This result differs quantitatively from results in skeletalmuscle, in which k_tr is sensitive to [Ca²⁺] primarily at higheractivation levels. This observation is also inconsistent witha recent suggestion that the rate of force development in livingmyocardium is independent of the activation level. Our resultsin skinned myocardium can be explained by a model in which calciumis a graded regulator of both the extent and rate of bindingof force-generating crossbridges to the thin filament.

Key Words: Ca²⁺ • crossbridges • cardiac muscle • skeletal muscle • crossbridge kinetics • contraction

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				M. C. Olsson, J. R. Patel, D. P. Fitzsimons, J. W. Walker, and R. L. Moss Basal myosin light chain phosphorylation is a determinant of Ca2+ sensitivity of force and activation dependence of the kinetics of myocardial force development Am J Physiol Heart Circ Physiol, December 1, 2004; 287(6): H2712 - H2718. [Abstract] [Full Text] [PDF]

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				R. L. Moss, M. Razumova, and D. P. Fitzsimons Myosin Crossbridge Activation of Cardiac Thin Filaments: Implications for Myocardial Function in Health and Disease Circ. Res., May 28, 2004; 94(10): 1290 - 1300. [Abstract] [Full Text] [PDF]

				D. J Miller, N. G MacFarlane, and G. Wilson Altered oscillatory work by ventricular myofilaments from a rabbit coronary artery ligation model of heart failure Cardiovasc Res, January 1, 2004; 61(1): 94 - 104. [Abstract] [Full Text] [PDF]

				S. S. Rhodes, K. M. Ropella, S. H. Audi, A. K. S. Camara, L. G. Kevin, P. S. Pagel, and D. F. Stowe Cross-bridge kinetics modeled from myoplasmic [Ca2+] and LV pressure at 17{degrees}C and after 37{degrees}C and 17{degrees}C ischemia Am J Physiol Heart Circ Physiol, April 1, 2003; 284(4): H1217 - H1229. [Abstract] [Full Text] [PDF]

				J van der Velden, Z Papp, N.M Boontje, R Zaremba, J.W de Jong, P.M.L Janssen, G Hasenfuss, and G.J.M Stienen The effect of myosin light chain 2 dephosphorylation on Ca2+-sensitivity of force is enhanced in failing human hearts Cardiovasc Res, February 1, 2003; 57(2): 505 - 514. [Abstract] [Full Text] [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. P Konhilas, T. C Irving, and P. P de Tombe Length-dependent activation in three striated muscle types of the rat J. Physiol., October 1, 2002; 544(1): 225 - 236. [Abstract] [Full Text] [PDF]

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				M. Chandra, V. L. M. Rundell, J. C. Tardiff, L. A. Leinwand, P. P. de Tombe, and R. J. Solaro Ca2+ activation of myofilaments from transgenic mouse hearts expressing R92Q mutant cardiac troponin T Am J Physiol Heart Circ Physiol, February 1, 2001; 280(2): H705 - H713. [Abstract] [Full Text] [PDF]

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				S C Calaghan, E White, S Bedut, and J-Y Le Guennec Cytochalasin D reduces Ca2+ sensitivity and maximum tension via interactions with myofilaments in skinned rat cardiac myocytes J. Physiol., December 1, 2000; 529(2): 405 - 411. [Abstract] [Full Text] [PDF]

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				A. M. Gordon, E. Homsher, and M. Regnier Regulation of Contraction in Striated Muscle Physiol Rev, April 1, 2000; 80(2): 853 - 924. [Abstract] [Full Text] [PDF]

				Z. Papp, J. van der Velden, and G.J.M Stienen Calpain-I induced alterations in the cytoskeletal structure and impaired mechanical properties of single myocytes of rat heart Cardiovasc Res, March 1, 2000; 45(4): 981 - 993. [Abstract] [Full Text] [PDF]

				P. VanBuren, K. A. Palmiter, and D. M. Warshaw Tropomyosin directly modulates actomyosin mechanical performance at the level of a single actin filament PNAS, October 26, 1999; 96(22): 12488 - 12493. [Abstract] [Full Text] [PDF]

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				K. S McDonald, M. R Wolff, and R. L Moss Force-velocity and power-load curves in rat skinned cardiac myocytes J. Physiol., September 1, 1998; 511(2): 519 - 531. [Abstract] [Full Text] [PDF]

				A. J. Baker, V. M. Figueredo, E. C. Keung, and S. A. Camacho Ca2+ regulates the kinetics of tension development in intact cardiac muscle Am J Physiol Heart Circ Physiol, September 1, 1998; 275(3): H744 - H750. [Abstract] [Full Text] [PDF]