Alterations in Ca2+ sensitive tension due to partial extraction of C- protein from rat skinned cardiac myocytes and rabbit skeletal muscle fibers

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Alterations in Ca2+ sensitive tension due to partial extraction of C- protein from rat skinned cardiac myocytes and rabbit skeletal muscle fibers

PA Hofmann, HC Hartzell and RL Moss
Department of Physiology, University of Wisconsin School of Medicine, Madison 53706.

C-protein, a substantial component of muscle thick filaments, has been postulated to have various functions, based mainly on results from biochemical studies. In the present study, effects on Ca(2+)-activated tension due to partial removal of C-protein were investigated in skinned single myocytes from rat ventricle and rabbit psoas muscle. Isometric tension was measured at pCa values of 7.0 to 4.5: (a) in untreated myocytes, (b) in the same myocytes after partial extraction of C-protein, and (c) in some myocytes, after readdition of C-protein. The solution for extracting C-protein contained 10 mM EDTA, 31 mM Na2HPO2, 124 mM NaH2PO4, pH 5.9 (Offer et al., 1973; Hartzell and Glass, 1984). In addition, the extracting solution contained 0.2 mg/ml troponin and, for skeletal muscle, 0.2 mg/ml myosin light chain-2 in order to minimize loss of these proteins during the extraction procedure. Between 60 and 70% of endogenous C-protein was extracted from cardiac myocytes by a 1-h soak in extracting solution at 20-23 degrees C; a similar amount was extracted from psoas fibers during a 3- h soak at 25 degrees C. For both cardiac myocytes and skeletal muscle fibers, partial extraction of C-protein resulted in increased active tension at submaximal concentrations of Ca2+, but had little effect upon maximum tension. C-protein extraction also reduced the slope of the tension-pCa relationships, suggesting that the cooperativity of Ca2+ activation of tension was decreased. Readdition of C-protein to previously extracted myocytes resulted in recovery of both tension and slope to near their control values. The effects on tension did not appear to be due to disruption of cooperative activation of the thin filament, since C-protein extraction from cardiac myocytes that were 40- 60% troponin-C (TnC) deficient produced effects similar to those observed in cells that were TnC replete. Measurements of the tension- pCa relationship in skeletal muscle fibers were also made at a sarcomere length of 3.5 microns which, because of the distribution of C- protein on the thick filament, should eliminate any interaction between C-protein and actin. The effects of C-protein extraction were similar at long and short sarcomere lengths. These data are consistent with a model in which C-protein modulates the range of movement of myosin, such that the probability of myosin binding to actin is increased after its extraction.
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				J. E. Stelzer, J. R. Patel, J. W. Walker, and R. L. Moss Differential Roles of Cardiac Myosin-Binding Protein C and Cardiac Troponin I in the Myofibrillar Force Responses to Protein Kinase A Phosphorylation Circ. Res., August 31, 2007; 101(5): 503 - 511. [Abstract] [Full Text] [PDF]

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				O. Cazorla, S. Szilagyi, N. Vignier, G. Salazar, E. Kramer, G. Vassort, L. Carrier, and A. Lacampagne Length and protein kinase A modulations of myocytes in cardiac myosin binding protein C-deficient mice Cardiovasc Res, February 1, 2006; 69(2): 370 - 380. [Abstract] [Full Text] [PDF]

				S. P. Harris, E. Rostkova, M. Gautel, and R. L. Moss Binding of Myosin Binding Protein-C to Myosin Subfragment S2 Affects Contractility Independent of a Tether Mechanism Circ. Res., October 29, 2004; 95(9): 930 - 936. [Abstract] [Full Text] [PDF]

				C. W. Tong, R. D. Gaffin, D. C. Zawieja, and M. Muthuchamy Roles of phosphorylation of myosin binding protein-C and troponin I in mouse cardiac muscle twitch dynamics J. Physiol., August 1, 2004; 558(3): 927 - 941. [Abstract] [Full Text] [PDF]

				B. M. Palmer, T. Noguchi, Y. Wang, J. R. Heim, N. R. Alpert, P. G. Burgon, C. E. Seidman, J.G. Seidman, D. W. Maughan, and M. M. LeWinter Effect of Cardiac Myosin Binding Protein-C on Mechanoenergetics in Mouse Myocardium Circ. Res., June 25, 2004; 94(12): 1615 - 1622. [Abstract] [Full Text] [PDF]

				E. Flashman, C. Redwood, J. Moolman-Smook, and H. Watkins Cardiac Myosin Binding Protein C: Its Role in Physiology and Disease Circ. Res., May 28, 2004; 94(10): 1279 - 1289. [Abstract] [Full Text] [PDF]

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				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]

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				I. Kulikovskaya, G. McClellan, R. Levine, and S. Winegrad Effect of extraction of myosin binding protein C on contractility of rat heart Am J Physiol Heart Circ Physiol, July 11, 2003; 285(2): H857 - H865. [Abstract] [Full Text] [PDF]

				G. M. Diffee and D. F. Nagle Exercise training alters length dependence of contractile properties in rat myocardium J Appl Physiol, March 1, 2003; 94(3): 1137 - 1144. [Abstract] [Full Text] [PDF]

				R. J. Talmadge, R. R. Roy, V. J. Caiozzo, and V. R. Edgerton Mechanical properties of rat soleus after long-term spinal cord transection J Appl Physiol, October 1, 2002; 93(4): 1487 - 1497. [Abstract] [Full Text] [PDF]

				S. P. Harris, C. R. Bartley, T. A. Hacker, K. S. McDonald, P. S. Douglas, M. L. Greaser, P. A. Powers, and R. L. Moss Hypertrophic Cardiomyopathy in Cardiac Myosin Binding Protein-C Knockout Mice Circ. Res., March 22, 2002; 90(5): 594 - 601. [Abstract] [Full Text] [PDF]

				G. M. Diffee, E. A. Seversen, and M. M. Titus Exercise training increases the Ca2+ sensitivity of tension in rat cardiac myocytes J Appl Physiol, July 1, 2001; 91(1): 309 - 315. [Abstract] [Full Text] [PDF]

				S C Calaghan, J Trinick, P J Knight, and E White A role for C-protein in the regulation of contraction and intracellular Ca2+ in intact rat ventricular myocytes J. Physiol., October 1, 2000; 528(1): 151 - 156. [Abstract] [Full Text] [PDF]

				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]

				E. Homsher, D. M Lee, C. Morris, D. Pavlov, and L. S Tobacman Regulation of force and unloaded sliding speed in single thin filaments: effects of regulatory proteins and calcium J. Physiol., April 1, 2000; 524(1): 233 - 243. [Abstract] [Full Text] [PDF]

				S. Winegrad Myosin Binding Protein C, a Potential Regulator of Cardiac Contractility Circ. Res., January 7, 2000; 86(1): 6 - 7. [Full Text] [PDF]

				G. Kunst, K. R. Kress, M. Gruen, D. Uttenweiler, M. Gautel, and R. H. A. Fink Myosin Binding Protein C, a Phosphorylation-Dependent Force Regulator in Muscle That Controls the Attachment of Myosin Heads by Its Interaction With Myosin S2 Circ. Res., January 7, 2000; 86(1): 51 - 58. [Abstract] [Full Text] [PDF]

				O. Cazorla, A. Freiburg, M. Helmes, T. Centner, M. McNabb, Y. Wu, K. Trombitas, S. Labeit, and H. Granzier Differential Expression of Cardiac Titin Isoforms and Modulation of Cellular Stiffness Circ. Res., January 7, 2000; 86(1): 59 - 67. [Abstract] [Full Text] [PDF]

				P. Hook, X. Li, J. Sleep, S. Hughes, and L. Larsson In vitro motility speed of slow myosin extracted from single soleus fibres from young and old rats J. Physiol., October 15, 1999; 520(2): 463 - 471. [Abstract] [Full Text] [PDF]

				S. Winegrad Cardiac Myosin Binding Protein C Circ. Res., May 28, 1999; 84(10): 1117 - 1126. [Abstract] [Full Text] [PDF]