Transgenic rat hearts overexpressing SERCA2a show improved contractility under baseline conditions and pressure overload.

Oliver J Müller; Mathias Lange; Rattunde Henning; Hans-Peter Lorenzen; Matthias Müller; Norbert Frey; Cordula Bittner; Warner Simonides; Hugo A Katus; Wolfgang M Franz

Transgenic rat hearts overexpressing SERCA2a show improved contractility under baseline conditions and pressure overload.

Standard

Transgenic rat hearts overexpressing SERCA2a show improved contractility under baseline conditions and pressure overload. / Müller, Oliver J; Lange, Mathias; Henning, Rattunde; Lorenzen, Hans-Peter; Müller, Matthias; Frey, Norbert; Bittner, Cordula; Simonides, Warner; Katus, Hugo A; Franz, Wolfgang M.

in: CARDIOVASC RES, Jahrgang 59, Nr. 2, 2, 2003, S. 380-389.

Publikationen: SCORING: Beitrag in Fachzeitschrift/Zeitung › SCORING: Zeitschriftenaufsatz › Forschung › Begutachtung

Harvard

Müller, OJ, Lange, M, Henning, R, Lorenzen, H-P, Müller, M, Frey, N, Bittner, C, Simonides, W, Katus, HA & Franz, WM 2003, 'Transgenic rat hearts overexpressing SERCA2a show improved contractility under baseline conditions and pressure overload.', CARDIOVASC RES, Jg. 59, Nr. 2, 2, S. 380-389. <http://www.ncbi.nlm.nih.gov/pubmed/12909321?dopt=Citation>

APA

Müller, O. J., Lange, M., Henning, R., Lorenzen, H-P., Müller, M., Frey, N., Bittner, C., Simonides, W., Katus, H. A., & Franz, W. M. (2003). Transgenic rat hearts overexpressing SERCA2a show improved contractility under baseline conditions and pressure overload. CARDIOVASC RES, 59(2), 380-389. [2]. http://www.ncbi.nlm.nih.gov/pubmed/12909321?dopt=Citation

Vancouver

Müller OJ, Lange M, Henning R, Lorenzen H-P, Müller M, Frey N et al. Transgenic rat hearts overexpressing SERCA2a show improved contractility under baseline conditions and pressure overload. CARDIOVASC RES. 2003;59(2):380-389. 2.

Bibtex

@article{4a6eff4e3adf413b97763bddc05da8c6,

title = "Transgenic rat hearts overexpressing SERCA2a show improved contractility under baseline conditions and pressure overload.",

abstract = "OBJECTIVE: The activity of sarcoplasmic reticulum Ca(2+)-ATPase (SERCA) is reduced in the failing myocardium. Therefore, transfer of SERCA2a cDNA is considered as a therapeutical approach. The aim of this study was analysis of the long-term effect of SERCA2a overexpression in normal as well as pressure overload challenged myocardium of transgenic rats. METHODS: Independent transgenic rat lines were established expressing the rat SERCA2a cDNA specifically in the myocardium resulting in increased SERCA2a protein levels by 30-70%. Simultaneous measurements of isometric contraction and calcium transients were carried out in right ventricular papillary muscle preparations. Hemodynamic parameters were measured in hearts of unchallenged rats as well as 10 weeks after pressure overload induced by abdominal aortic banding. RESULTS: Analysis of calcium handling and contractile parameters in isolated right ventricular papillary muscles revealed significant shortening of intracellular calcium transients and half maximal relaxation times (RT(50)). Assessing myocardial contractility in working heart preparations, both transgenic rat lines revealed elevated left ventricular pressure, improved systolic and diastolic parameters, attenuated negative force-frequency relation, and a dose-dependent beta-adrenergic effect. Aortic banding resulted in reduction of left ventricular pressure and worsening of contraction and relaxation parameters with no differences in mortality in both transgenic (+dP/dt 3084+/-96 vs. 3938+/-250 mmHg/s; RT(50) 47.0+/-1.2 vs. 36.7+/-1.4 ms) and wild-type rats (+dP/dt 2695+/-86 vs. 3297+/-122 mmHg/s; RT(50) 53.0+/-1.6 vs. 44.1+/-1.4). SERCA2a overexpressing hearts revealed improved hemodynamic parameters compared to wild-type controls. Acceleration of isovolumetric relaxation characterized by the index Tau was directly correlated to SERCA2a protein concentrations. CONCLUSION: Overexpression of SERCA2a protein results in a positive inotropic effect under baseline conditions remaining preserved under pressure overload without affecting mortality. Therefore therapeutic transfer of SERCA2a may become a potential approach for gene therapy of congestive heart failure. Moreover, transgenic SERCA2a rats will be useful for studies of long-term SERCA2a overexpression in further cardiovascular disease models.",

author = "M{\"u}ller, {Oliver J} and Mathias Lange and Rattunde Henning and Hans-Peter Lorenzen and Matthias M{\"u}ller and Norbert Frey and Cordula Bittner and Warner Simonides and Katus, {Hugo A} and Franz, {Wolfgang M}",

year = "2003",

language = "Deutsch",

volume = "59",

pages = "380--389",

journal = "CARDIOVASC RES",

issn = "0008-6363",

publisher = "Oxford University Press",

number = "2",

}

RIS

TY - JOUR

T1 - Transgenic rat hearts overexpressing SERCA2a show improved contractility under baseline conditions and pressure overload.

AU - Müller, Oliver J

AU - Lange, Mathias

AU - Henning, Rattunde

AU - Lorenzen, Hans-Peter

AU - Müller, Matthias

AU - Frey, Norbert

AU - Bittner, Cordula

AU - Simonides, Warner

AU - Katus, Hugo A

AU - Franz, Wolfgang M

PY - 2003

Y1 - 2003

N2 - OBJECTIVE: The activity of sarcoplasmic reticulum Ca(2+)-ATPase (SERCA) is reduced in the failing myocardium. Therefore, transfer of SERCA2a cDNA is considered as a therapeutical approach. The aim of this study was analysis of the long-term effect of SERCA2a overexpression in normal as well as pressure overload challenged myocardium of transgenic rats. METHODS: Independent transgenic rat lines were established expressing the rat SERCA2a cDNA specifically in the myocardium resulting in increased SERCA2a protein levels by 30-70%. Simultaneous measurements of isometric contraction and calcium transients were carried out in right ventricular papillary muscle preparations. Hemodynamic parameters were measured in hearts of unchallenged rats as well as 10 weeks after pressure overload induced by abdominal aortic banding. RESULTS: Analysis of calcium handling and contractile parameters in isolated right ventricular papillary muscles revealed significant shortening of intracellular calcium transients and half maximal relaxation times (RT(50)). Assessing myocardial contractility in working heart preparations, both transgenic rat lines revealed elevated left ventricular pressure, improved systolic and diastolic parameters, attenuated negative force-frequency relation, and a dose-dependent beta-adrenergic effect. Aortic banding resulted in reduction of left ventricular pressure and worsening of contraction and relaxation parameters with no differences in mortality in both transgenic (+dP/dt 3084+/-96 vs. 3938+/-250 mmHg/s; RT(50) 47.0+/-1.2 vs. 36.7+/-1.4 ms) and wild-type rats (+dP/dt 2695+/-86 vs. 3297+/-122 mmHg/s; RT(50) 53.0+/-1.6 vs. 44.1+/-1.4). SERCA2a overexpressing hearts revealed improved hemodynamic parameters compared to wild-type controls. Acceleration of isovolumetric relaxation characterized by the index Tau was directly correlated to SERCA2a protein concentrations. CONCLUSION: Overexpression of SERCA2a protein results in a positive inotropic effect under baseline conditions remaining preserved under pressure overload without affecting mortality. Therefore therapeutic transfer of SERCA2a may become a potential approach for gene therapy of congestive heart failure. Moreover, transgenic SERCA2a rats will be useful for studies of long-term SERCA2a overexpression in further cardiovascular disease models.

AB - OBJECTIVE: The activity of sarcoplasmic reticulum Ca(2+)-ATPase (SERCA) is reduced in the failing myocardium. Therefore, transfer of SERCA2a cDNA is considered as a therapeutical approach. The aim of this study was analysis of the long-term effect of SERCA2a overexpression in normal as well as pressure overload challenged myocardium of transgenic rats. METHODS: Independent transgenic rat lines were established expressing the rat SERCA2a cDNA specifically in the myocardium resulting in increased SERCA2a protein levels by 30-70%. Simultaneous measurements of isometric contraction and calcium transients were carried out in right ventricular papillary muscle preparations. Hemodynamic parameters were measured in hearts of unchallenged rats as well as 10 weeks after pressure overload induced by abdominal aortic banding. RESULTS: Analysis of calcium handling and contractile parameters in isolated right ventricular papillary muscles revealed significant shortening of intracellular calcium transients and half maximal relaxation times (RT(50)). Assessing myocardial contractility in working heart preparations, both transgenic rat lines revealed elevated left ventricular pressure, improved systolic and diastolic parameters, attenuated negative force-frequency relation, and a dose-dependent beta-adrenergic effect. Aortic banding resulted in reduction of left ventricular pressure and worsening of contraction and relaxation parameters with no differences in mortality in both transgenic (+dP/dt 3084+/-96 vs. 3938+/-250 mmHg/s; RT(50) 47.0+/-1.2 vs. 36.7+/-1.4 ms) and wild-type rats (+dP/dt 2695+/-86 vs. 3297+/-122 mmHg/s; RT(50) 53.0+/-1.6 vs. 44.1+/-1.4). SERCA2a overexpressing hearts revealed improved hemodynamic parameters compared to wild-type controls. Acceleration of isovolumetric relaxation characterized by the index Tau was directly correlated to SERCA2a protein concentrations. CONCLUSION: Overexpression of SERCA2a protein results in a positive inotropic effect under baseline conditions remaining preserved under pressure overload without affecting mortality. Therefore therapeutic transfer of SERCA2a may become a potential approach for gene therapy of congestive heart failure. Moreover, transgenic SERCA2a rats will be useful for studies of long-term SERCA2a overexpression in further cardiovascular disease models.

M3 - SCORING: Zeitschriftenaufsatz

VL - 59

SP - 380

EP - 389

JO - CARDIOVASC RES

JF - CARDIOVASC RES

SN - 0008-6363

IS - 2

M1 - 2

ER -