Role of Cardiac Myosin Binding Protein C in Sustaining Left Ventricular Systolic Stiffening

doi:10.1161/01.RES.0000126898.95550.31

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Circulation Research. 2004;94:1249-1255
Published online before print April 1, 2004, doi: 10.1161/01.RES.0000126898.95550.31

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(Circulation Research. 2004;94:1249.)
© 2004 American Heart Association, Inc.

Integrative Physiology

Role of Cardiac Myosin Binding Protein C in Sustaining Left Ventricular Systolic Stiffening

Bradley M. Palmer, Dimitrios Georgakopoulos, Paul M. Janssen, Yuan Wang, Norman R. Alpert, Diego F. Belardi, Samantha P. Harris, Richard L. Moss, Patrick G. Burgon, Christine E. Seidman, J.G. Seidman, David W. Maughan, David A. Kass

From the Department of Molecular Physiology and Biophysics (B.M.P., Y.W., N.R.A., D.W.M.), University of Vermont, Burlington, Vt; Departments of Medicine and Biomedical Engineering (D.G., D.F.B., D.A.K.), Johns Hopkins Medical Institutions, Baltimore, Md; The Institute of Molecular Cardiobiology (P.M.J.), Johns Hopkins University School of Medicine, Baltimore, Md; Department of Physiology (S.P.H., R.L.M.), University of Wisconsin Medical School, Madison, Wis; and the Department of Genetics (P.G.B., C.E.S., J.G.S.), Howard Hughes Medical Institute and Harvard Medical School, Boston, Mass.

Correspondence to Bradley M. Palmer, PhD, 127 HSRF Beaumont Ave, Department of Molecular Physiology and Biophysics, University of Vermont, Burlington, VT 05405. E-mail palmer{at}physiology.med.uvm.edu

Despite advances in the molecular biology of cardiac myosinbinding protein-C (cMyBP-C), little is understood about itsprecise role in muscle contraction, particularly in the intactheart. We tested the hypothesis that cMyBP-C is central to thetime course and magnitude of left ventricular systolic elastance(chamber stiffening), and assessed mechanisms for this influencein intact hearts, trabeculae, and skinned fibers from wild-type(+/+) and homozygous truncated cMyBP-C (t/t) male mice. cMyBP-Cprotein was not detected by gel electrophoresis or Western blotin t/t myocardium. cMyBP-C t/t ventricles displayed reducedpeak elastance, but more strikingly a marked abbreviation ofthe systolic elastance time course, which peaked earlier (27.6±2.1ms) than in +/+ controls (47.8±1.6 ms). Control heartsreached only 42±4% of maximum elastance at the onsetof ejection, with substantial further stiffening during ejection.This contrasted to t/t mutants, which reached 77±3% ofpeak elastance before ejection of peak. These unusual findingswere not observed in alternative models involving severe cardiomyopathy,but were recapitulated in a cMyBP-C null mouse. The abbreviatedelastance time course and lower peak were consistent with earliertime-to-peak trabecular tension, increased unloaded shorteningvelocity in t/t skinned muscle strips, and dramatically reducedmyofilament stiffness at diastolic calcium concentrations. Theseresults provide novel insights into the role of cMyBP-C in myocardialsystolic mechanics. Abnormal sarcomere shortening velocity andabbreviated muscle stiffening may underlie development of cardiacdysfunction associated with deficient incorporation of cMyBP-C.

Key Words: C-protein • ventricular mechanics • time-varying elastance • cardiomyopathy • myocardium

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				S. Brickson, D. P. Fitzsimons, L. Pereira, T. Hacker, H. Valdivia, and R. L. Moss In vivo left ventricular functional capacity is compromised in cMyBP-C null mice Am J Physiol Heart Circ Physiol, April 1, 2007; 292(4): H1747 - H1754. [Abstract] [Full Text] [PDF]

				H. L. Granzier and K. B. Campbell New Insights in the Role of Cardiac Myosin Binding Protein C As a Regulator of Cardiac Contractility Circ. Res., October 13, 2006; 99(8): 795 - 797. [Full Text] [PDF]

				J. E. Stelzer, J. R. Patel, and R. L. Moss Protein Kinase A-Mediated Acceleration of the Stretch Activation Response in Murine Skinned Myocardium Is Eliminated by Ablation of cMyBP-C Circ. Res., October 13, 2006; 99(8): 884 - 890. [Abstract] [Full Text] [PDF]

				T. J. Herron, E. Rostkova, G. Kunst, R. Chaturvedi, M. Gautel, and J. C. Kentish Activation of Myocardial Contraction by the N-Terminal Domains of Myosin Binding Protein-C Circ. Res., May 26, 2006; 98(10): 1290 - 1298. [Abstract] [Full Text] [PDF]

				J. E. Stelzer, S. B. Dunning, and R. L. Moss Ablation of Cardiac Myosin-Binding Protein-C Accelerates Stretch Activation in Murine Skinned Myocardium Circ. Res., May 12, 2006; 98(9): 1212 - 1218. [Abstract] [Full Text] [PDF]

				D. A. Kass and R. J. Solaro Mechanisms and Use of Calcium-Sensitizing Agents in the Failing Heart Circulation, January 17, 2006; 113(2): 305 - 315. [Full Text] [PDF]

				P. M. L. Janssen, N. Hiranandani, T. A. Mays, and J. A. Rafael-Fortney Utrophin deficiency worsens cardiac contractile dysfunction present in dystrophin-deficient mdx mice Am J Physiol Heart Circ Physiol, December 1, 2005; 289(6): H2373 - H2378. [Abstract] [Full Text] [PDF]

				A. Borbely, J. van der Velden, Z. Papp, J. G.F. Bronzwaer, I. Edes, G. J.M. Stienen, and W. J. Paulus Cardiomyocyte Stiffness in Diastolic Heart Failure Circulation, February 15, 2005; 111(6): 774 - 781. [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]

				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]