N A Narolska

Publications (4)15.19 Total impact

• Article: Myosin heavy chain composition and the economy of contraction in healthy and diseased human myocardium

  N.A. Narolska, S. Eiras, R.B. van Loon, N.M. Boontje, R. Zaremba, S.R. Spiegelen berg, W. Stooker, M.A.J.M. Huybregts, F.C. Visser, J. van der Velden, G.J.M. Stienen
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  ABSTRACT: Changes in myosin heavy chain (MHC) isoform expression and protein composition occur during cardiac disease and it has been suggested that even a minor shift in MHC composition may exert a considerable effect on myocardial energetics and performance. Here an overview is provided of the cellular basis of the energy utilisation in cardiac tissue and novel data are presented concerning the economy of myocardial contraction in diseased atrial and ventricular human myocardium. ATP utilisation and force development were measured at various Ca2+ concentrations during isometric contraction in chemically skinned atrial trabeculae from patients in sinus rhythm (SR) or with chronic atrial fibrillation (AF) and in ventricular muscle strips from non-failing donor or end-stage failing hearts. Contractile protein composition was analysed by one-dimensional gel electrophoresis. Atrial fibrillation was accompanied by a significant shift from the fast α-MHC isoform to the slow β-MHC isoform, whereas both donor and failing ventricular tissue contained almost exclusively the β-MHC isoform. Simultaneous measurements of force and ATP utilisation indicated that economy of contraction is preserved in atrial fibrillation and in end-stage human heart failure.
  Journal of Muscle Research and Cell Motility 04/2012; 26(1):39-48. · 1.98 Impact Factor
• Article: Alterations in contractile protein composition and function in human atrial dilatation and atrial fibrillation.

  S Eiras, N A Narolska, R B van Loon, N M Boontje, R Zaremba, C R Jimenez, F C Visser, W Stooker, J van der Velden, G J M Stienen
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  ABSTRACT: The cellular mechanisms responsible for contractile dysfunction associated with atrial fibrillation (AF) are still poorly understood. Atrial fibrillation is often preceded by atrial dilatation. This study aimed to explain contractile alterations associated with AF and their relation to atrial dilatation, by studying the relationships between atrial dimensions, contractile protein composition, force production and Ca(2+)-sensitivity. Force development was determined in mechanically isolated single skinned cardiomyocytes from right atrial appendages from patients with sinus rhythm without (SR;n=9), or with atrial dilation (SR+AD;n=11) or atrial fibrillation (AF;n=16). Echocardiography showed that, compared to the SR group, mean right atrial dimensions were increased by 18% and 35% in the SR+AD and AF group, respectively (P<0.05). Protein composition was determined by 1- and 2-dimensional gel electrophoresis. Compared to the SR group, the AF group exhibited: a reduction in the kinetics of force redevelopment (K(tr)) in isolated atrial cardiomyocytes, enhanced protein expression of the slow myosin heavy chain isoform (beta-MHC), an increase in troponin T (TnT) phosphorylation and a marked increase (70%) of the cytoskeletal protein desmin. Significant correlations were observed between the right atrial major axis (RA(major)) and beta-MHC expression as well as the desmin/actin ratio. Our findings indicate that dilatation may influence cardiomyocyte stability through altered desmin expression, but that it does not predispose to the alterations in contractile function observed in AF.
  Journal of Molecular and Cellular Cardiology 09/2006; 41(3):467-77. · 5.17 Impact Factor
• Article: Myocardial contraction is 5-fold more economical in ventricular than in atrial human tissue.

  N A Narolska, R B van Loon, N M Boontje, R Zaremba, S Eiras Penas, J Russell, S R Spiegelenberg, M A J M Huybregts, F C Visser, J W de Jong, J van der Velden, G J M Stienen
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  ABSTRACT: Cardiac energetics and performance depend on the expression level of the fast (alpha-) and slow (beta-) myosin heavy chain (MHC) isoform. In ventricular tissue, the beta-MHC isoform predominates, whereas in atrial tissue a variable mixture of alpha- and beta-MHC is found. In several cardiac diseases, the slow isoform is upregulated; however, the functional implications of this transition in human myocardium are largely unknown. The aim of this study was to determine the relation between contractile properties and MHC isoform composition in healthy human myocardium using the diversity in atrial tissue. Isometric force production and ATP consumption were measured in chemically skinned atrial trabeculae and ventricular muscle strips, and rate of force redevelopment was studied using single cardiomyocytes. MHC isoform composition was determined by one-dimensional SDS-gel electrophoresis. Force development in ventricular tissue was about 5-fold more economical, but nine times slower, than in atrial tissue. Significant linear correlations were found between MHC isoform composition, ATP consumption and rate of force redevelopment. These results clearly indicate that even a minor shift in MHC isoform expression has considerable impact on cardiac performance in human tissue.
  Cardiovascular Research 02/2005; 65(1):221-9. · 6.06 Impact Factor
• Article: Myosin heavy chain composition and the economy of contraction in healthy and diseased human myocardium.

  N A Narolska, S Eiras, R B van Loon, N M Boontje, R Zaremba, S R Spiegelen Berg, W Stooker, M A J M Huybregts, F C Visser, J van der Velden, G J M Stienen
  [show abstract] [hide abstract]
  ABSTRACT: Changes in myosin heavy chain (MHC) isoform expression and protein composition occur during cardiac disease and it has been suggested that even a minor shift in MHC composition may exert a considerable effect on myocardial energetics and performance. Here an overview is provided of the cellular basis of the energy utilisation in cardiac tissue and novel data are presented concerning the economy of myocardial contraction in diseased atrial and ventricular human myocardium. ATP utilisation and force development were measured at various Ca(2+) concentrations during isometric contraction in chemically skinned atrial trabeculae from patients in sinus rhythm (SR) or with chronic atrial fibrillation (AF) and in ventricular muscle strips from non-failing donor or end-stage failing hearts. Contractile protein composition was analysed by one-dimensional gel electrophoresis. Atrial fibrillation was accompanied by a significant shift from the fast alpha-MHC isoform to the slow beta-MHC isoform, whereas both donor and failing ventricular tissue contained almost exclusively the beta-MHC isoform. Simultaneous measurements of force and ATP utilisation indicated that economy of contraction is preserved in atrial fibrillation and in end-stage human heart failure.
  Journal of Muscle Research and Cell Motility 02/2005; 26(1):39-48. · 1.98 Impact Factor