Abstract
Beta-catenin is a transcriptional regulator of several genes involved in survival and proliferation. Although previous studies suggest that beta-catenin may be involved in the process of preconditioning and healing after myocardial infarction (MI), little is known regarding the role of beta-catenin in cardiomyocytes and cardiac fibroblasts. We investigated the role of beta-catenin in cardiomyocytes and cardiac fibroblasts and whether beta-catenin overexpression could reduce MI size. Adenovirus-mediated gene transfer of nonphosphorylatable constitutively active beta-catenin (Ad-catenin) decreased apoptosis in cardiomyocytes and cardiac fibroblasts with increased expression of survivin and Bcl-2. Although Ad-catenin increased the percentage of cells in the S phase with enhanced expression of cyclin D1 and E2 in both cell types, the increase in cell number was only evident in cardiac fibroblasts, whereas hypertrophy and binuclear cells were more prominent in cardiomyocytes. All of these effects of beta-catenin gene transfer were blocked by inhibition of its nuclear translocation. Furthermore, Ad-catenin enhanced the expression of vascular endothelial growth factor in both cells and induced differentiation of cardiac fibroblasts into myofibroblasts. In a rat MI model, injection of Ad-catenin into the infarct border zone resulted in a significantly decreased MI size with anti-apoptotic effect and cell cycle activation in both cardiomyocytes and myofibroblasts. beta-Catenin may play an important role in the healing process after MI by promoting survival and cell cycle not only in cardiomyocytes but also in cardiac fibroblasts with its differentiation into myofibroblasts.
Highlights
-Catenin is known to have dual functions
Ad-catenin transfection resulted in overexpression of total -catenin on Western blotting analysis in contrast to Adenovirus encoding GFP (AdGFP), which showed no changes in -catenin expression, confirming successful formation of Ad-catenin construct and gene transfer
-Catenin Reduces Apoptosis in Cardiomyocytes and Cardiac Fibroblasts—Under serum deprivation, the subdiploid apoptotic fraction of DNA as measured by flow cytometry analysis significantly decreased in both cardiomyocytes and cardiac fibroblasts transfected with Ad-catenin compared with Ad-green fluorescence protein (GFP)-transfected cells, which was reversed by NCad⌬C (Fig. 1, A and C)
Summary
-Catenin is known to have dual functions. Membranebound -catenin maintains tissue architecture and cell polarity at adherens junctions by linking the cadherin cytoplasmic tail to the actin cytoskeleton [1]. Wnt-1 induced accumulation of cytosolic -catenin, and the resultant Tcf/Lef transcriptional activation was correlated with enhanced proliferation, survival, and growth in Rat-1 fibroblasts [10]. Previous data suggest that -catenins enhance survival, growth, and proliferation in cardiomyocytes and cardiac fibroblasts and may play a role in the healing process after MI. The modulation of upstream signals of -catenin in the myocardial ischemia model has been investigated previously These studies suggest that -catenin may have a role in the process of preconditioning and healing after myocardial infarction. Overexpression of FrzA reduced MI size and improved cardiac function in a non-reperfused model [14]. In these studies, myocardial ischemia models were different, and none of these studies overexpressed -catenin directly. We studied the effect of direct -catenin overexpression in a rat MI model
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