Contribution of Vascular Cells to Neointimal Formation
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Kang Xu | Falei Yuan | Guo-Yuan Yang | Zhijun Zhang | Li Yang | Jixian Wang | Song Li | Ji-xian Wang | Guo-Yuan Yang | Kang Xu | Falei Yuan | Song Li | Li Yang | Dong Wang | Dong Wang | Zhi-jun Zhang
[1] Qingbo Xu,et al. Abundant progenitor cells in the adventitia contribute to atherosclerosis of vein grafts in ApoE-deficient mice. , 2004, The Journal of clinical investigation.
[2] M. Reidy,et al. Smooth muscle cell migration and matrix metalloproteinase expression after arterial injury in the rat. , 1994, Circulation research.
[3] S. Offermanns,et al. Previously differentiated medial vascular smooth muscle cells contribute to neointima formation following vascular injury , 2014, Vascular cell.
[4] G. Owens,et al. Origin of neointimal smooth muscle: we've come full circle. , 2006, Arteriosclerosis, thrombosis, and vascular biology.
[5] R. Wissler. The Arterial Medial Cell, Smooth Muscle, or Multifunctional Mesenchyme? , 1967, Circulation.
[6] A. Churchman,et al. Isolation, culture and characterisation of vascular smooth muscle cells. , 2009, Methods in molecular biology.
[7] H. Etchevers,et al. The cephalic neural crest provides pericytes and smooth muscle cells to all blood vessels of the face and forebrain. , 2001, Development.
[8] G. Owens,et al. Smooth Muscle–Targeted Knockout of Connexin43 Enhances Neointimal Formation in Response to Vascular Injury , 2007, Arteriosclerosis, thrombosis, and vascular biology.
[9] Aijun Wang,et al. Smooth muscle cells: to be or not to be? Response to Nguyen et Al. , 2013, Circulation research.
[10] D. Newgreen,et al. Sox10 overexpression induces neural crest‐like cells from all dorsoventral levels of the neural tube but inhibits differentiation , 2005, Developmental dynamics : an official publication of the American Association of Anatomists.
[11] J. Badimón,et al. Mouse model of femoral artery denudation injury associated with the rapid accumulation of adhesion molecules on the luminal surface and recruitment of neutrophils. , 2000, Arteriosclerosis, thrombosis, and vascular biology.
[12] Randall J. Lee,et al. Proteomic identification of biomarkers of vascular injury. , 2011, American journal of translational research.
[13] K. Ligon,et al. Smooth muscle myosin heavy chain exclusively marks the smooth muscle lineage during mouse embryogenesis. , 1994, Circulation research.
[14] David J. Anderson,et al. SOX10 Maintains Multipotency and Inhibits Neuronal Differentiation of Neural Crest Stem Cells , 2003, Neuron.
[15] G. Owens,et al. Regulation of differentiation of vascular smooth muscle cells. , 1995, Physiological reviews.
[16] W. Gerthoffer. Mechanisms of vascular smooth muscle cell migration. , 2007, Circulation research.
[17] Zhenyu Tang,et al. Differentiation of Multipotent Vascular Stem Cells Contributes to Vascular Diseases , 2012, Nature Communications.
[18] G. Berry,et al. Endothelial Fate Mapping in Mice With Pulmonary Hypertension , 2014, Circulation.
[19] V. Lindner,et al. Remodeling and neointimal formation in the carotid artery of normal and P-selectin-deficient mice. , 1997, Circulation.
[20] T. Helgason,et al. Differentiated vascular myocytes: are they involved in neointimal formation? , 1996, The Journal of clinical investigation.
[21] Vagheesh M. Narasimhan,et al. Extensive Proliferation of a Subset of Differentiated, yet Plastic, Medial Vascular Smooth Muscle Cells Contributes to Neointimal Formation in Mouse Injury and Atherosclerosis Models , 2016, Circulation research.
[22] A. Lafont,et al. Isolation of “Side Population” Progenitor Cells From Healthy Arteries of Adult Mice , 2005, Arteriosclerosis, thrombosis, and vascular biology.