Renate de Jong1, Gerardus P J van Hout1, Jaco H Houtgraaf1, Kushan Kazemi1, Christine Wallrapp1, Andrew Lewis1, Gerard Pasterkamp1, Imo E Hoefer1, Henricus J Duckers2. 1. From the Department of Cardiology, Thorax Center, Erasmus University Medical Center, Rotterdam, The Netherlands (R.d.J., J.H.H., K.K.); Experimental Cardiology Laboratory, University and Medical Center Utrecht, The Netherlands (G.P.J.v.H., G.P., I.E.H.); BTG International Germany GmbH, Alzenau, Germany (C.W.); Biocompatibles UK Ltd, a BTG International Group Company, Farnham, United Kingdom (A.L.); and Department of Cardiology, University Medical Center Utrecht, Utrecht, The Netherlands (H.J.D.). 2. From the Department of Cardiology, Thorax Center, Erasmus University Medical Center, Rotterdam, The Netherlands (R.d.J., J.H.H., K.K.); Experimental Cardiology Laboratory, University and Medical Center Utrecht, The Netherlands (G.P.J.v.H., G.P., I.E.H.); BTG International Germany GmbH, Alzenau, Germany (C.W.); Biocompatibles UK Ltd, a BTG International Group Company, Farnham, United Kingdom (A.L.); and Department of Cardiology, University Medical Center Utrecht, Utrecht, The Netherlands (H.J.D.). h.j.duckers@umcutrecht.nl.
Abstract
BACKGROUND: Engraftment and survival of stem cells in the infarcted myocardium remain problematic in cell-based therapy for cardiovascular disease. To overcome these issues, encapsulated mesenchymal stem cells (eMSCs) were developed that were transfected to produce glucagon-like peptide-1, an incretin hormone with known cardioprotective effects, alongside MSC endogenous paracrine factors. This study was designed to investigate the efficacy of different doses of intracoronary infusion of eMSC in a porcine model of acute myocardial infarction (AMI). METHODS AND RESULTS: One hundred pigs were subjected to a moderate AMI (posterolateral AMI; n=50) or a severe AMI (anterior AMI; n=50), whereupon surviving animals (n=36 moderate, n=33 severe) were randomized to receive either intracoronary infusion of 3 incremental doses of eMSC or Ringers' lactate control. Cardiac function was assessed using invasive hemodynamics, echocardiography, and histological analysis. A trend was observed in the moderate AMI model, whereas in the severe AMI model, left ventricular ejection fraction improved by +9.3% (P=0.004) in the best responding eMSC group, because of a preservation of left ventricular end-systolic volume. Arteriolar density increased 3-fold in the infarct area (8.4±0.9/mm(2) in controls versus 22.2±2.6/mm(2) in eMSC group; P<0.001). Although not statistically significant, capillary density was 30% higher in the border zone (908.1±99.7/mm(2) in control versus 1209.0±64.6/mm(2) in eMSC group; P=ns). CONCLUSIONS: eMSCs enable sustained local delivery of cardioprotective proteins to the heart, thereby enhancing angiogenesis and preserving contractile function in an animal AMI model.
BACKGROUND: Engraftment and survival of stem cells in the infarcted myocardium remain problematic in cell-based therapy for cardiovascular disease. To overcome these issues, encapsulated mesenchymal stem cells (eMSCs) were developed that were transfected to produce glucagon-like peptide-1, an incretin hormone with known cardioprotective effects, alongside MSC endogenous paracrine factors. This study was designed to investigate the efficacy of different doses of intracoronary infusion of eMSC in a porcine model of acute myocardial infarction (AMI). METHODS AND RESULTS: One hundred pigs were subjected to a moderate AMI (posterolateral AMI; n=50) or a severe AMI (anterior AMI; n=50), whereupon surviving animals (n=36 moderate, n=33 severe) were randomized to receive either intracoronary infusion of 3 incremental doses of eMSC or Ringers' lactate control. Cardiac function was assessed using invasive hemodynamics, echocardiography, and histological analysis. A trend was observed in the moderate AMI model, whereas in the severe AMI model, left ventricular ejection fraction improved by +9.3% (P=0.004) in the best responding eMSC group, because of a preservation of left ventricular end-systolic volume. Arteriolar density increased 3-fold in the infarct area (8.4±0.9/mm(2) in controls versus 22.2±2.6/mm(2) in eMSC group; P<0.001). Although not statistically significant, capillary density was 30% higher in the border zone (908.1±99.7/mm(2) in control versus 1209.0±64.6/mm(2) in eMSC group; P=ns). CONCLUSIONS: eMSCs enable sustained local delivery of cardioprotective proteins to the heart, thereby enhancing angiogenesis and preserving contractile function in an animal AMI model.
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Authors: Gerardus P J van Hout; Michel P J Teuben; Marjolein Heeres; Steven de Maat; Renate de Jong; Coen Maas; Lisanne H J A Kouwenberg; Leo Koenderman; Wouter W van Solinge; Saskia C A de Jager; Gerard Pasterkamp; Imo E Hoefer Journal: J Cell Mol Med Date: 2015-08-18 Impact factor: 5.310