Abstract-Migration of smooth muscle cells from the arterial media to the intima is central to several vascular pathologies including restenosis. This study demonstrates that, like directional migration of other cells, smooth muscle migration is accompanied by a dramatic, polarized reorganization of the cell cytoskeleton that is accompanied by activation of the Rho GTPase Cdc42 and inactivation of glycogen synthase kinase-3. We also show, for the first time, that signals generated at the posterior-lateral aspects of wound edge cells by the cell-cell adhesion molecule N-cadherin are required for polarization and rapid migration of vascular smooth muscle. Importantly, when a cohort of migrating smooth muscle cells encounter CHO cells or the A10 smooth muscle cell line, neither of which expresses N-cadherin, polarity is only slightly suppressed. However, when smooth muscle cells encounter stably transfected, N-cadherinexpressing A10 cells or (N-cadherin-expressing) vascular endothelium, they rapidly lose their polarized phenotype. The latter finding indicates that endothelial signaling to innermost smooth muscle cells via N-cadherin may be critical to normal vessel wall stability. We infer that asymmetrical distribution of N-cadherin is necessary for the establishment of cell polarity during migration and that N-cadherin ligation is highly effective in abrogating polarized migration. Finally, we showed that endothelial cell polarity does not depend on N-cadherin; therefore, this molecule may be an attractive target for therapies to prevent restenosis without suppressing endothelial repair and risking late thrombosis. Key Words: smooth muscle cell Ⅲ migration Ⅲ N-cadherin Ⅲ polarity Ⅲ restenosis D irectional migration of smooth muscle cells from the arterial media to the intima and their subsequent proliferation is critical to the pathogenesis of important vascular disorders including restenosis, atherosclerosis, and bypass graft failure. 1,2 Endothelial cell loss initiates this neointimal formation because it occurs, albeit more slowly, after very gentle procedures that achieve deendothelialization with minimal medial trauma, 3 whereas severe medial trauma that leaves the endothelium largely intact does not produce a neointima. 4 Consequently, the sequelae to endothelial loss have been extensively studied.Platelet activation after endothelial denudation and subsequent release of the chemotactic mitogen, platelet-derived growth factor (PDGF), are important in promoting inward migration of smooth muscle cells. 5 Accordingly, antiplatelet or anti-PDGF strategies slow neointimal formation in animal models; however, migration is not fully arrested, and these strategies have not proven to be of substantial clinical value. 6 Instead, recent improvements in restenosis outcomes that have resulted from use of drug-eluting stents for the treatment of coronary artery disease rely on release of antimitogenic agents. 7,8 A limitation to antimitogenic therapy is that it may contribute to late thrombosis after stenting by suppress...
