Nitric Oxide-Dependent Bone Marrow Progenitor Mobilization by Carbon Monoxide Enhances Endothelial Repair After Vascular Injury

B Wegiel, DJ Gallo, KG Raman, JM Karlsson, B Ozanich, BY Chin, E Tzeng, Shakil Ahmad, Asif Ahmed, CJ Baty, LE Otterbein

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77 Citations (Scopus)


Background-Carbon monoxide (CO) has emerged as a vascular homeostatic molecule that prevents balloon angioplasty-induced stenosis via antiproliferative effects on vascular smooth muscle cells. The effects of CO on reendothelialization have not been evaluated. Methods and Results-Exposure to CO has diametrically opposite effects on endothelial cell (EC) and vascular smooth muscle cell proliferation in rodent models of carotid injury. In contrast to its effect of blocking vascular smooth muscle cell growth, CO administered as a gas or as a CO-releasing molecule enhances proliferation and motility of ECs in vitro by >50% versus air controls, and in vivo, it accelerates reendothelialization of the denuded artery by day 4 after injury versus day 6 in air-treated animals. CO enhanced EC proliferation via rapid activation of RhoA (Ras homolog gene family, member A), followed by downstream phosphorylation of Akt, endothelial nitric oxide (NO) synthase phosphorylation, and a 60% increase in NO generation by ECs. CO drives cell cycle progression through phosphorylation of retinoblastoma, which is dependent in part on endothelial NO synthase-generated NO. Similarly, endothelial repair in vivo requires NO-dependent mobilization of bone marrow-derived EC progenitors, and CO yielded a 4-fold increase in the number of mobilized green fluorescent protein-Tie2-positive endothelial progenitor cells versus controls, with a corresponding accelerated deposition of differentiated green fluorescent protein-Tie2-positive ECs at the site of injury. CO was ineffective in augmenting EC repair and the ensuing development of intimal hyperplasia in eNOS(-/-) mice. Conclusions-Collectively, the present data demonstrate that CO accelerates EC proliferation and vessel repair in a manner dependent on NO generation and enhanced recruitment of bone marrow-derived endothelial progenitor cells. (Circulation. 2010;121:537-548.)
Original languageEnglish
Pages (from-to)537-U125
Issue number4
Publication statusPublished - 1 Feb 2010


  • endothelium
  • stenosis
  • angioplasty, balloon
  • signal transduction
  • nitric oxide synthase


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