Alterations of cross-bridge kinetics in human atrial and ventricular myocardium

doi:10.1016/S0008-6363(98)00164-3

Cardiovascular Research 1998 40(3):580-590; doi:10.1016/S0008-6363(98)00164-3
© 1998 by European Society of Cardiology

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Alterations of cross-bridge kinetics in human atrial and ventricular myocardium

Thorsten Ruf^a, Heiner Schulte-Baukloh^a, Jens Lüdemann^a, Herbert Posival^c, Friedhelm Beyersdorf^b, Hanjörg Just^a and Christian Holubarsch^a^,*

^aDepartment of Cardiology and Angiology, Internal Medicine, University of Freiburg, Hugstetter Strasse 55, 79106 Freiburg, Germany
^bDepartment of Cardiovascular Surgery, University of Freiburg, Hugstetter Strasse 55, 79106 Freiburg, Germany
^cDepartment of Cardiovascular Surgery and Heart Transplantation, 32545 Bad Oeynhausen, Germany

^* Corresponding author. Tel.: +761-270-3283; fax: +761-270-3611.

Condensed abstract: We analyzed actomyosin cross-bridge kineticsin human atrial and ventricular muscle strip preparations byusing sinusoidal length changes from 0.1 to 60 Hz. The minimumstiffness frequency was higher in atrial than in ventricularhuman myocardium and lower in failing than in non-failing leftventricular human myocardium. β-Adrenergic stimulationincreased the minimum stiffness frequency by 18±3% (p<0.05).Cross-bridge kinetics are temperature-dependent, with a Q₁₀of at least 2.7. Background: Dynamic stiffness measurementshave revealed acute and chronic alterations of actomyosin cross-bridgekinetics in cardiac muscles of a variety of different animalspecies. We studied dynamic stiffness in right atrial and leftventricular preparations of non-failing and failing human heartsand tested the influence of the temperature and β-adrenergicstimulation on cross-bridge kinetics. Methods and Results: Musclestrips were prepared from right atria and left ventricles fromhuman non-failing and failing hearts. After withdrawal of calcium,steady contracture tension was induced by the addition of 1.5mM barium chloride. Sinusoidal length oscillations of 1% musclelength were applied, with a frequency spectrum of between 0.1and 60 Hz. Dynamic stiffness was calculated from the lengthchange and the corresponding force response amplitude. The specificminimum stiffness frequency, which indicates the interactionbetween cross-bridge recruitment and cross-bridge cycling dynamics,was analyzed for each condition: (1) The minimum stiffness frequencywas 0.78±0.04 Hz in left ventricular myocardium and 2.80±0.31Hz in right atrial myocardium (p<0.01) at 27°C. (2) Theminimum stiffness frequency was 41% higher in non-failing comparedto failing left ventricular human myocardium. (3) Over a widerange of experimental temperatures, the minimum stiffness frequencychanged, with a Q₁₀ of at least 2.7. (4) β-Adrenergic stimulationsignificantly (p<0.05) increased the minimum stiffness to18±3% higher frequencies and significantly (p<0.05)lowered contracture tension by 7±1%. Conclusions: Thecontractility of human heart muscle is not only regulated byexcitation–contraction coupling but also by modulationof intrinsic properties of the actomyosin system. Acute andchronic alterations of cross-bridge kinetics have been demonstrated,which play a significant role in the physiology and pathophysiologyof the human heart.

KEYWORDS Cross-bridge kinetics; Actomyosin; Barium contracture; Cardiomyopathy; Experimental temperature

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