VE-cadherin-induced Cdc42 signaling regulates formation of membrane protrusions in endothelial cells

Abstract

The cytoplasmic domain of cadherins and the associated catenins link the cytoskeleton with signal transduction pathways. To study the signaling function of non-junctional VE-cadherin, which can form during the loss VE-cadherin homotypic adhesion, wild type VE-cadherin or VE-cadherin cytoplasmic domain (ΔEXD) was expressed in sub-confluent endothelial cells. We observed that Cdc42 was activated in transfected cells and that these cells also developed Cdc42-dependent >70-μm-long plasma membrane protrusions. The formation of these structures required actin polymerization, and they developed specifically in endothelial cells as compared with epithelial cells. Expression of the VE-cadherin cytoplasmic domain lacking the β-catenin binding site also induced Cdc42 activation; thus, its activation cannot be ascribed to β-catenin binding. However, these cells were not able to form the protrusions. These results suggest that the cytoplasmic domain of non-junctional VE-cadherin can serve as a scaffold involved in Cdc42 activation at the endothelial plasma membrane. β-Catenin and the associated α-catenin may serve as support sites for actin polymerization, leading to formation of long plasma membrane protrusions. Thus, nonjunctional VE-cadherin actively participates in insideout signaling at the plasma membrane, leading to the development of endothelial membrane protrusions.