Increased Ca2+-sensitivity of the contractile apparatus in end-stage human heart failure results from altered phosphorylation of contractile proteins

doi:10.1016/S0008-6363(02)00606-5

Cardiovascular Research 2003 57(1):37-47; doi:10.1016/S0008-6363(02)00606-5
© 2003 by European Society of Cardiology

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Increased Ca²⁺-sensitivity of the contractile apparatus in end-stage human heart failure results from altered phosphorylation of contractile proteins

J van der Velden^a^,*, Z Papp^b, R Zaremba^a, N.M Boontje^a, J.W de Jong^c, V.J Owen^d, P.B.J Burton^d, P Goldmann^e, K Jaquet^e and G.J.M Stienen^a

^aLaboratory for Physiology, Institute for Cardiovascular Research (ICaR-VU), VU University Medical Center, Van der Boechorststraat 7, 1081 BT Amsterdam, The Netherlands
^bUDMHSC Department of Cardiology, Debrecen, Hungary
^cThorax Center, Erasmus University, Rotterdam, The Netherlands
^dDepartment of Cardiac Surgery, National Heart and Lung Institute at the Imperial College School of Medicine, London, UK
^eRuhr-Universität, Institut für Physiologische Chemie, Abteilung für Biochemie Supramolekularer Systeme, Bochum, Germany

^* Corresponding author. Tel.: +31-20-444-8121; fax: +31-20-444-8255 j.van_der_velden.physiol{at}med.vu.nl

Objective: The alterations in contractile proteins underlyingenhanced Ca²⁺-sensitivity of the contractile apparatus in end-stagefailing human myocardium are still not resolved. In the presentstudy an attempt was made to reveal to what extent protein alterationscontribute to the increased Ca²⁺-responsiveness in human heartfailure. Methods: Isometric force and its Ca²⁺-sensitivity werestudied in single left ventricular myocytes from non-failingdonor (n=6) and end-stage failing (n=10) hearts. To elucidatewhich protein alterations contribute to the increased Ca²⁺-responsivenessisoform composition and phosphorylation status of contractileproteins were analysed by one- and two-dimensional gel electrophoresisand Western immunoblotting. Results: Maximal tension did notdiffer between myocytes obtained from donor and failing hearts,while Ca²⁺-sensitivity of the contractile apparatus (pCa₅₀)was significantly higher in failing myocardium ( ${Delta}$ pCa₅₀=0.17).Protein analysis indicated that neither re-expression of atriallight chain 1 and fetal troponin T (TnT) nor degradation ofmyosin light chains and troponin I (TnI) are responsible forthe observed increase in Ca²⁺-responsiveness. An inverse correlationwas found between pCa₅₀ and percentage of phosphorylated myosinlight chain 2 (MLC-2), while phosphorylation of MLC-1 and TnTdid not differ between donor and failing hearts. Incubationof myocytes with protein kinase A decreased Ca²⁺-sensitivityto a larger extent in failing ( ${Delta}$ pCa₅₀=0.20) than in donor ( ${Delta}$ pCa₅₀=0.03)myocytes, abolishing the difference in Ca²⁺-responsiveness.An increased percentage of dephosphorylated TnI was found infailing hearts, which significantly correlated with the enhancedCa²⁺-responsiveness. Conclusions: The increased Ca²⁺-responsivenessof the contractile apparatus in end-stage failing human heartscannot be explained by a shift in contractile protein isoforms,but results from the complex interplay between changes in thephosphorylation status of MLC-2 and TnI.

KEYWORDS Contractile function; Heart failure; Myocytes; Protein phosphorylation

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				T. Schober and B. C. Knollmann Exercise After Myocardial Infarction Improves Contractility and Decreases Myofilament Ca2+ Sensitivity Circ. Res., April 13, 2007; 100(7): 937 - 939. [Full Text] [PDF]

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				J. van der Velden, N. A. Narolska, R. R. Lamberts, N. M. Boontje, A. Borbely, R. Zaremba, J. G.F. Bronzwaer, Z. Papp, K. Jaquet, W. J. Paulus, et al. Functional effects of protein kinase C-mediated myofilament phosphorylation in human myocardium Cardiovasc Res, March 1, 2006; 69(4): 876 - 887. [Abstract] [Full Text] [PDF]

				E. McGregor and M. J. Dunn Proteomics of the Heart: Unraveling Disease Circ. Res., February 17, 2006; 98(3): 309 - 321. [Abstract] [Full Text] [PDF]

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