AIMS: Drug-eluting stents (DESs) reduce neointima area and in-stent restenosis but delay re-endothelialization. Recently, we demonstrated that pharmacological expansion and functional enhancement of endothelial progenitor cells (EPCs) can be achieved by treatment with a glycogen synthase kinase-3beta inhibitor (GSKi)-even for feeble cells derived from coronary artery disease patients. GSKi treatment enhanced EPC adhesion via up-regulated expression of the alpha-4 integrin, ameliorated re-endothelialization, and reduced neointima formation in denuded murine arteries. Hence, we hypothesized that GSKi-coated stents (GSs) will enhance EPC adhesion and attenuate delayed vascular healing associated with rapamycin, a key DES agent. METHODS AND RESULTS: In vitro human EPCs adhered to GS with affinities that were 2x, 14x, and 13x greater than vehicle (VSs)-, rapamycin (RSs)-, and rapamycin plus GSKi (RGSs)-coated stents, respectively. Stents were inserted in rabbit carotid arteries, and at 14 days, neointima area was 45 and 49% lower in GSs compared with bare metal stents (BMSs) and VSs. Moreover, RSs had a 47% larger neointima area than GSs, but RGSs reduced neointima area to a level comparable to GSs. Seven days after stenting, GSs displayed re-endothelialization that was 40, 33, and 42% greater than BMSs, VSs, and RSs, respectively. Moreover, RGSs had 41% more re-endothelialization than RSs. At 14 days, the 7-day re-endothelialization patterns persisted. CONCLUSION: GSKi efficiently ameliorates the vascular response to stent implantation and has an important redeeming effect on the deleterious endothelial effects of rapamycin-coated stents.
AIMS: Drug-eluting stents (DESs) reduce neointima area and in-stent restenosis but delay re-endothelialization. Recently, we demonstrated that pharmacological expansion and functional enhancement of endothelial progenitor cells (EPCs) can be achieved by treatment with a glycogen synthase kinase-3beta inhibitor (GSKi)-even for feeble cells derived from coronary artery diseasepatients. GSKi treatment enhanced EPC adhesion via up-regulated expression of the alpha-4 integrin, ameliorated re-endothelialization, and reduced neointima formation in denuded murine arteries. Hence, we hypothesized that GSKi-coated stents (GSs) will enhance EPC adhesion and attenuate delayed vascular healing associated with rapamycin, a key DES agent. METHODS AND RESULTS: In vitro human EPCs adhered to GS with affinities that were 2x, 14x, and 13x greater than vehicle (VSs)-, rapamycin (RSs)-, and rapamycin plus GSKi (RGSs)-coated stents, respectively. Stents were inserted in rabbit carotid arteries, and at 14 days, neointima area was 45 and 49% lower in GSs compared with bare metal stents (BMSs) and VSs. Moreover, RSs had a 47% larger neointima area than GSs, but RGSs reduced neointima area to a level comparable to GSs. Seven days after stenting, GSs displayed re-endothelialization that was 40, 33, and 42% greater than BMSs, VSs, and RSs, respectively. Moreover, RGSs had 41% more re-endothelialization than RSs. At 14 days, the 7-day re-endothelialization patterns persisted. CONCLUSION: GSKi efficiently ameliorates the vascular response to stent implantation and has an important redeeming effect on the deleterious endothelial effects of rapamycin-coated stents.
Authors: Victoria Ulrich; Eddy S Konaniah; Wan-Ru Lee; Sadiksha Khadka; Yu-Min Shen; Joachim Herz; Jane E Salmon; David Y Hui; Philip W Shaul; Chieko Mineo Journal: J Am Heart Assoc Date: 2014-10-14 Impact factor: 5.501
Authors: Shaunta Guha; John P Cullen; David Morrow; Alberto Colombo; Caitríona Lally; Dermot Walls; Eileen M Redmond; Paul A Cahill Journal: Basic Res Cardiol Date: 2011-05-10 Impact factor: 17.165
Authors: Oliver Soehnlein; Sarawuth Wantha; Sakine Simsekyilmaz; Yvonne Döring; Remco T A Megens; Sebastian F Mause; Maik Drechsler; Ralf Smeets; Stefan Weinandy; Fabian Schreiber; Thomas Gries; Stefan Jockenhoevel; Martin Möller; Santosh Vijayan; Marc A M J van Zandvoort; Birgitta Agerberth; Christine T Pham; Richard L Gallo; Tilman M Hackeng; Elisa A Liehn; Alma Zernecke; Doris Klee; Christian Weber Journal: Sci Transl Med Date: 2011-10-05 Impact factor: 17.956