Abstract P1027: Cardioprotective Effects Of Genetically Engineered Cardiac Stem Cells By Spheroid Formation On Ischemic Cardiomyocytes

Abstract

Background: Sca-1+ cardiac stem cells and their limited proliferative potential were major limiting factors for use in various studies. Methods: Therefore, the effects of sphere genetically engineered cardiac stem cells (S-GECS) inserted with telomerase reverse transcriptase (TERT) were investigated to examine cardiomyocyte survival under hypoxic conditions. GECS was obtained from hTERT-immortalized Sca-1+ cardiac stem cell (CSC) lines, and S-GECS were generated using poly-HEMA. Results: The optimal conditions for S-GECS was determined to be 1,052 GECS cells/mm 2 and a 48 hours culture period. Compared to adherent-GECS (A-GECS) and S-GECS showed significantly higher mRNA expression of the growth factors SDF-1α and CXCR4. S-GECS conditioned medium (CM) significantly reduced the proportion of early and late apoptotic cardiomyoblasts during CoCl 2 -induced hypoxic injury; however, gene silencing via CXCR4 siRNA deteriorated the protective effects of S-GECS against hypoxic injury. As downstream pathways of SDF-1α/CXCR4, the Erk and Akt signaling pathways were stimulated in the presence of S-GECS CM. S-GECS transplantation into a rat acute myocardial infarction model improved cardiac function and reduced the fibrotic area. These cardioprotective effects were confirmed to be related with the SDF-1α/CXCR4 pathway. Conclusions: Our findings suggest that paracrine factors secreted from transplanted cells may protect host cardiomyoblasts in the infarcted myocardium, contributing to beneficial left ventricle (LV) remodeling after acute myocardial infarction (AMI).