OBJECTIVE: T-cadherin (T-cad) is an atypical GPI-anchored member of the cadherin superfamily. In vascular tissue, T-cad expression is increased during atherosclerosis, restenosis, and tumor neovascularization. In vitro, overexpression and/or homophilic ligation of T-cad on endothelial cells (ECs) facilitates migration, proliferation, and survival. This study investigated T-cad effects on angiogenesis. METHODS AND RESULTS: In vitro, T-cad homophilic ligation induced arrangement of ECs into a capillary-like network in a 2-dimensional model of EC differentiation and stimulated in-gel endothelial sprout outgrowth in an EC spheroid model and a modified Nicosia tissue assay. Sprouting from spheroids composed of adenoviral-infected T-cad overexpressing ECs or T-cad siRNA transfected ECs were significantly increased or reduced, respectively. In vivo, T-cad potentiated VEGF effects on neovascularization in a model of myoblast-mediated gene transfer to mouse skeletal muscle; vessel caliber after co-delivery of T-cad and VEGF was significantly greater than after delivery of VEGF alone. CONCLUSIONS: We unequivocally identify T-cad as a novel modulator of angiogenesis and suggest that this molecule can be exploited as a target for modulation of therapeutic angiogenesis, as well as for prevention of pathological conditions associated with abnormal neovascularization.
OBJECTIVE:T-cadherin (T-cad) is an atypical GPI-anchored member of the cadherin superfamily. In vascular tissue, T-cad expression is increased during atherosclerosis, restenosis, and tumor neovascularization. In vitro, overexpression and/or homophilic ligation of T-cad on endothelial cells (ECs) facilitates migration, proliferation, and survival. This study investigated T-cad effects on angiogenesis. METHODS AND RESULTS: In vitro, T-cad homophilic ligation induced arrangement of ECs into a capillary-like network in a 2-dimensional model of EC differentiation and stimulated in-gel endothelial sprout outgrowth in an EC spheroid model and a modified Nicosia tissue assay. Sprouting from spheroids composed of adenoviral-infectedT-cad overexpressing ECs or T-cad siRNA transfected ECs were significantly increased or reduced, respectively. In vivo, T-cad potentiated VEGF effects on neovascularization in a model of myoblast-mediated gene transfer to mouse skeletal muscle; vessel caliber after co-delivery of T-cad and VEGF was significantly greater than after delivery of VEGF alone. CONCLUSIONS: We unequivocally identify T-cad as a novel modulator of angiogenesis and suggest that this molecule can be exploited as a target for modulation of therapeutic angiogenesis, as well as for prevention of pathological conditions associated with abnormal neovascularization.
Authors: Keri L Monda; Kari E North; Steven C Hunt; D C Rao; Michael A Province; Aldi T Kraja Journal: Endocr Metab Immune Disord Drug Targets Date: 2010-06 Impact factor: 2.895
Authors: Vineet Sangar; Cory C Funk; Ulrike Kusebauch; David S Campbell; Robert L Moritz; Nathan D Price Journal: Mol Cell Proteomics Date: 2014-07-05 Impact factor: 5.911
Authors: F B S Briggs; P P Ramsay; E Madden; J M Norris; V M Holers; T R Mikuls; T Sokka; M F Seldin; P K Gregersen; L A Criswell; L F Barcellos Journal: Genes Immun Date: 2010-01-21 Impact factor: 2.676