Abstract
Background and Aims: The expression and the role of tight junction protein, Claudin-11 (CLDN11) in vasculat smooth muscle cell (vSMC) is unknown. Methods: To understand the role of CLDN11 in the vSMC, we transfected siRNA-CLDN11 into human coronary vascular smooth muscle cell line (hCSMC). cDNA microarray using Agilent Human mRNA arrays, immunocytochemistry, tube formation assay, FACS, and cell cycle analysis were performed 7 days after CLDN11 knock-down. To know the role of CLDN11 in the human cardiovascular system, we obtained vascular smooth muscle layer from autopsied left anterior descending artery and CLDN11 mRNA expression was evaluated following modified AHA Consensus Classification Based on Morphologic Descriptions (three groups, total n=45). Results: CLDN11 was well expressed in vascular smooth mucscle layer in immunohistochemisty and western blot analysis. We observed the angiogenesis (CXCL8, SOX17, HEY1), cell proliferation (EGR3, ITGB2), and extracellular matrix (BMPER, WNT1) associated gene expression. Following CLDN11-siRNA transfection, the tube formation assay and proliferating cellular phase was markedly increased in siRNA treatment group (p<0.01, respectively). In the human sample, CLDN11 expression was inversely correlated with the progression of coronary atherosclerosis (p=0.0026), and the sudden cardiac death with complicated coronary atherosclerosis (p<0.05). Conclusions: These results indicate that CLDN11 could tightly regulate the vascular smooth muscle physiology. And CLDN11 might play a certain role for atherosclerosis propagation to regulate the vSMCs plasticity and possible new etiology for cardiovascular events.
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