OBJECTIVE: In contrast to CD34, vascular endothelial-cadherin (VE-cadherin) is exclusively expressed on the late endothelial progenitor cells (EPC) whereas not on the early or myeloid EPC. Thus, VE-cadherin could be an ideal target surface molecule to capture circulating late EPC. In the present study, we evaluated whether anti-VE-cadherin antibody-coated stents (VE-cad stents) might accelerate endothelial recovery and reduce neointimal formation through the ability of capturing EPC. METHODS AND RESULTS: The stainless steel stents were coated with rabbit polyclonal anti-human VE-cadherin antibodies and exposed to EPC for 30 minutes in vitro. The number of EPC that adhered to the surface of VE-cad stents was significantly higher than bare metal stents (BMS) in vitro, which was obliterated by pretreatment of VE-cad stent with soluble VE-cadherin proteins. We deployed VE-cad stents and BMS in the rabbit right and left iliac arteries, respectively. At 48 hours after stent deployment in vivo, CD-31-positive endothelial cells adhered to VE-cad stent significantly more than to BMS. At 3 days, scanning electron microscopy showed that over 90% surface of VE-cad stents was covered with endothelial cells, which was significantly different from BMS. At 42 days, neointimal area that was filled with smooth muscle cells positive for actin or calponin was significantly smaller in VE-cad stents than in BMS by histological analysis (0.95±0.22 versus 1.34±0.43 mm(2), respectively, P=0.02). Immuno-histochemical analysis revealed that infiltration of inflammatory cells was not significantly different between 2 stents. CONCLUSIONS: VE-cad stents captured EPC successfully in vitro, accelerated endothelial recovery on stent, and eventually reduced neointimal formation in vivo.
OBJECTIVE: In contrast to CD34, vascular endothelial-cadherin (VE-cadherin) is exclusively expressed on the late endothelial progenitor cells (EPC) whereas not on the early or myeloid EPC. Thus, VE-cadherin could be an ideal target surface molecule to capture circulating late EPC. In the present study, we evaluated whether anti-VE-cadherin antibody-coated stents (VE-cad stents) might accelerate endothelial recovery and reduce neointimal formation through the ability of capturing EPC. METHODS AND RESULTS: The stainless steel stents were coated with rabbit polyclonal anti-human VE-cadherin antibodies and exposed to EPC for 30 minutes in vitro. The number of EPC that adhered to the surface of VE-cad stents was significantly higher than bare metal stents (BMS) in vitro, which was obliterated by pretreatment of VE-cad stent with soluble VE-cadherin proteins. We deployed VE-cad stents and BMS in the rabbit right and left iliac arteries, respectively. At 48 hours after stent deployment in vivo, CD-31-positive endothelial cells adhered to VE-cad stent significantly more than to BMS. At 3 days, scanning electron microscopy showed that over 90% surface of VE-cad stents was covered with endothelial cells, which was significantly different from BMS. At 42 days, neointimal area that was filled with smooth muscle cells positive for actin or calponin was significantly smaller in VE-cad stents than in BMS by histological analysis (0.95±0.22 versus 1.34±0.43 mm(2), respectively, P=0.02). Immuno-histochemical analysis revealed that infiltration of inflammatory cells was not significantly different between 2 stents. CONCLUSIONS: VE-cad stents captured EPC successfully in vitro, accelerated endothelial recovery on stent, and eventually reduced neointimal formation in vivo.
Authors: Alexander Sedaghat; Jan-Malte Sinning; Kathrin Paul; Gregor Kirfel; Georg Nickenig; Nikos Werner Journal: Clin Res Cardiol Date: 2013-02-10 Impact factor: 5.460
Authors: Karolien Gellynck; Valérie Kodeck; Elke Van De Walle; Ken Kersemans; Filip De Vos; Heidi Declercq; Peter Dubruel; Lieven Vlaminck; Maria Cornelissen Journal: Exp Biol Med (Maywood) Date: 2014-10-10
Authors: Claudia Tersteeg; Mark Roest; Elske M Mak-Nienhuis; Erik Ligtenberg; Imo E Hoefer; Philip G de Groot; Gerard Pasterkamp Journal: J Cell Mol Med Date: 2012-09 Impact factor: 5.310
Authors: Sylvia Otto; Kristina Nitsche; Christian Jung; Aleh Kryvanos; Andrey Zhylka; Kerstin Heitkamp; Juan-Luis Gutiérrez-Chico; Björn Goebel; P Christian Schulze; Hans R Figulla; Tudor C Poerner Journal: BMC Cardiovasc Disord Date: 2017-04-26 Impact factor: 2.298
Authors: Samira M Azarin; Ji Yi; Robert M Gower; Brian A Aguado; Megan E Sullivan; Ashley G Goodman; Eric J Jiang; Shreyas S Rao; Yinying Ren; Susan L Tucker; Vadim Backman; Jacqueline S Jeruss; Lonnie D Shea Journal: Nat Commun Date: 2015-09-08 Impact factor: 14.919