Abstract 12996: Ccn5 Gene Therapy Reduces Myocardial Infarction Size and Improves Contractility in Ischemic Cardiomyopathy

IntroductionSalvaging ischemic myocardium post acute myocardial (MI) infarction has not been achieved with current treatments. Gene therapy via adeno-associated virus (AAV) offers a promising strategy since myocytes can be reprogrammed fast after MI. CCN5 is a pleiotropic target shown to rescue func...

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Published in:Circulation (New York, N.Y.) N.Y.), 2019-11, Vol.140 (Suppl_1 Suppl 1), p.A12996-A12996
Main Authors: Jeong, Dongtak, Yoo, Jimeen, Song, Min Ho, Gubara, Sarah M, Katz, Michael G, Park, Woo Jin, Fargnoli, Anthony
Format: Article
Language:English
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Summary:IntroductionSalvaging ischemic myocardium post acute myocardial (MI) infarction has not been achieved with current treatments. Gene therapy via adeno-associated virus (AAV) offers a promising strategy since myocytes can be reprogrammed fast after MI. CCN5 is a pleiotropic target shown to rescue function and reduce fibrosis in murine models. CCN5’s mode of action is 2 foldupregulating survival and reducing fibrosis mechanisms. Here, we attempt to validate CCN5 in a sheep MI model.HypothesisCCN5 will salvage post MI myocardium and improve extracellular matrix composition through reducing levels ofTGFB signalling, myofibroblasts and collagen I deposition.MethodsSurgical ligation of 2 arteries was performed in n=12 sheep and randomized between AAV9 null or AAV9 CCN5. 30 min after MI, 15 single AAV injections were given in the MI area, total 1 x 10. MRI assessed function at 1 and 3 months. AssaysQPCR of genome copies, CCN5 expression, TGFB ELISA, collagen I and histology.ResultsCCN5 reduced MI size to [7±2%] F1A as compared with nulls F1B [18±2%] at 3 months. LV Ejection fraction was preserved with CCN5 [50±4%] compared to heart failure in the nulls [36±3%] F1C. End Systolic volumes were higher in the nulls [84±6mL] in to CCN5 [52±4mL] F1D. QPCR of AAV.CCN5 detected 995086 GC per 1 ug DNA or 8.1 GC/cell in the injected zones, but not distal areas. Cardiac specific CCN5 expression confirmed via confocal Fig1E and western blot. TGFB levels were significantly less in CCN5 treated samples [0.67±0.2AU] to nulls’s areas [1.6±0.3AU]. FACS cell sorting revealed significantly less myofibroblast detection range 0.2-4% for CCN5 samples versus >20% for nulls Fig1F. Collagen I (red) stain revealed significantly less formation in CCN5 [3.3±0.05AU] F1G vs high [8.2±0.07AU] in nulls F1H.ConclusionsCCN5 preserves myocytes in the setting of MI and reduces chronic fibrosis markers. CCN5 gene therapy could be a treatment option for early stage MI or cardiac surgery indications.
ISSN:0009-7322
1524-4539
DOI:10.1161/circ.140.suppl_1.12996