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Articles by Y. Huo
Total Records ( 2 ) for Y. Huo
  H Wang , W Zhang , C Zhu , C Bucher , B. R Blazar , C Zhang , J. F Chen , J Linden , C Wu and Y. Huo
 

Background— Atherosclerosis is a chronic inflammatory disease of the arterial vessel wall. The A2A receptor (A2AR) plays a central role in many antiinflammatory effects of adenosine. However, the role of A2AR in atherosclerosis is not clear.

Methods and Results— The knockout of A2AR in apolipoprotein E–deficient (Apoe–/–/A2AR–/–) mice led to an increase in body weight and levels of blood cholesterol and proinflammatory cytokines, as well as the inflammation status of atherosclerotic lesions. Unexpectedly, Apoe–/–/A2AR–/– mice developed smaller lesions, as did chimeric Apoe–/– mice lacking A2AR in bone marrow–derived cells (BMDCs). The lesions of those mice exhibited a low density of foam cells and the homing ability of A2AR-deficient monocytes did not change. Increased foam cell apoptosis was detected in atherosclerotic lesions of Apoe–/–/A2AR–/– mice. In the absence of A2AR, macrophages incubated with oxidized LDL or in vivo–formed foam cells also exhibited increased apoptosis. A2AR deficiency in foam cells resulted in an increase in p38 mitogen–activated protein kinase (MAPK) activity. Inhibition of p38 phosphorylation abrogated the increased apoptosis of A2AR-deficient foam cells.

Conclusion— Inactivation of A2AR, especially in BMDCs, inhibits the formation of atherosclerotic leisons, suggesting that A2AR inactivation may be useful for the treatment of atherosclerosis.

  H Wang , W Zhang , R Tang , R. P Hebbel , M. A Kowalska , C Zhang , J. D Marth , M Fukuda , C Zhu and Y. Huo
 

Objective— Core2 1 to 6-N-glucosaminyltransferase-I (C2GlcNAcT-I) plays an important role in optimizing the binding functions of several selectin ligands, including P-selectin glycoprotein ligand. We used apolipoprotein E (ApoE)-deficient atherosclerotic mice to investigate the role of C2GlcNAcT-I in platelet and leukocyte interactions with injured arterial walls, in endothelial regeneration at injured sites, and in the formation of arterial neointima.

Methods and Results— Arterial neointima induced by wire injury was smaller in C2GlcNAcT-I-deficient apoE–/– mice than in control apoE–/– mice (a 79% reduction in size). Compared to controls, apoE–/– mice deficient in C2GlcNAcT-I also demonstrated less leukocyte adhesion on activated platelets in microflow chambers (a 75% reduction), and accumulation of leukocytes at injured areas of mouse carotid arteries was eliminated. Additionally, endothelial regeneration in injured lumenal areas was substantially faster in C2GlcNAcT-I-deficient apoE–/– mice than in control apoE–/– mice. Endothelial regeneration was associated with reduced accumulation of platelet factor 4 (PF4) at injured sites. PF4 deficiency accelerated endothelial regeneration and protected mice from neointima formation after arterial injury.

Conclusions— C2GlcNAcT-I deficiency suppresses injury-induced arterial neointima formation, and this effect is attributable to decreased leukocyte recruitment to injured vascular walls and increased endothelial regeneration. Both C2GlcNAcT-I and PF4 are promising targets for the treatment of arterial restenosis.

 
 
 
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