Title of article
Reversal of Cardiac Dysfunction After Long-Term Expression of SERCA2a by Gene Transfer in a Pre-Clinical Model of Heart Failure Original Research Article
Author/Authors
Yoshiaki Kawase، نويسنده , , Hung Q. Ly، نويسنده , , Fabrice Prunier، نويسنده , , Djamel Lebeche، نويسنده , , Yanfen Shi، نويسنده , , Hongwei Jin، نويسنده , , Lahouaria Hadri، نويسنده , , Ryuichi Yoneyama، نويسنده , , Kozo Hoshino، نويسنده , , Yoshiaki Takewa، نويسنده , , Susumu Sakata، نويسنده , , Richard Peluso، نويسنده , , Krisztina Zsebo، نويسنده , , Judith K. Gwathmey، نويسنده , , Jean-Claude Tardif، نويسنده , , Jean-François Tanguay، نويسنده , , Roger J. Hajjar، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2008
Pages
8
From page
1112
To page
1119
Abstract
Objectives
The aim of this study was to examine the effects of sarcoplasmic reticulum Ca2+ ATPase (SERCA2a) gene transfer in a swine heart failure (HF) model.
Background
Reduced expression and activity of SERCA2a have been documented in HF. Prior studies have reported the beneficial effects of short-term SERCA2a overexpression in rodent models. However, the effects of long-term expression of SERCA2a in pre-clinical large animal models are not known.
Methods
Yorkshire-Landrace pigs were used (n = 16) to create volume overload by percutaneously severing chordae tendinae of the mitral apparatus with a bioptome to induce mitral regurgitation. At 2 months, pigs underwent intracoronary delivery of either recombinant adeno-associated virus type 1 (rAAV1) carrying SERCA2a under a cytomegalovirus promoter (rAAV1.SERCA2a) (n = 10; group 1) or saline (n = 6; group 2).
Results
At 2 months, study animals were found to be in a compensated state of volume-overload HF (increased left ventricular internal diastolic and systolic diameters [LVIDd and LVIDs]). At 4 months, gene transfer resulted in: 1) positive left ventricular (LV) inotropic effects (adjusted peak left ventricular pressure rate of rise (dP/dt)max/P, 21.2 ± 3.2 s−1 group 1 vs. 15.5 ± 3.0 s−1 group 2; p < 0.01); 2) improvement in LV remodeling (% change in LVIDs −3.0 ± 10% vs. +15 ± 11%, respectively; p < 0.01). At follow-up, brain natriuretic peptide levels remained stable in group 1 after gene transfer, in contrast to rising levels in group 2. Further, cardiac SERCA2a expression was significantly decreased in group 2 whereas in group 1 it was restored to normal levels. There was no histopathological evidence of acute myocardial inflammation or necrosis.
Conclusions
Using a large-animal, volume-overload model of HF, we report that long-term overexpression of SERCA2a by in vivo rAAV1-mediated intracoronary gene transfer preserved systolic function, potentially prevented diastolic dysfunction, and improved ventricular remodeling.
Keywords
RT-PCR , brain natriuretic peptide , heart failure , MR , Creatine kinase , Tau , Hf , reverse transcription polymerase chain reaction , CK , LV , left ventricle/ventricular , LVEF , left ventricular ejection fraction , dP/dt , BNP , LVIDd , left ventricular internal diastolic diameter , LVIDs , SERCA2a , peak left ventricular pressure rate , left ventricular internal systolic diameter , mitral valve regurgitation , rAAV1 , recombinant adeno-associated virus type 1 , sarcoplasmic reticulum Ca2+ ATPase , time constant of isovolumic relaxation
Journal title
JACC (Journal of the American College of Cardiology)
Serial Year
2008
Journal title
JACC (Journal of the American College of Cardiology)
Record number
473184
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