A mechanosensory complex that mediates the endothelial cell response to fluid shear stress

被引:0
作者
Eleni Tzima
Mohamed Irani-Tehrani
William B. Kiosses
Elizabetta Dejana
David A. Schultz
Britta Engelhardt
Gaoyuan Cao
Horace DeLisser
Martin Alexander Schwartz
机构
[1] The Scripps Research Institute,Department of Cell Biology
[2] University of Milan,Mario Negri Institute for Pharmacological Research and FIRC Institute of Molecular Oncology, Department of Biomolecular and Biotechnological Sciences, Faculty of Sciences
[3] University of California at San Diego,Department of Physics
[4] University of Bern,Theodor Kocher Institute
[5] University of Pennsylvania Medical Center,Pulmonary and Critical Care Division, Department of Medicine
[6] University of Virginia,Departments of Microbiology and Biomedical Engineering, Cardiovascular Research Center, Mellon Prostate Cancer Research Center
[7] University of North Carolina at Chapel Hill,Department of Cell and Molecular Physiology
来源
Nature | 2005年 / 437卷
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摘要
Shear stress is a fundamental determinant of vascular homeostasis, regulating vascular remodelling, cardiac development and atherogenesis1, but the mechanisms of transduction are poorly understood. Previous work showed that the conversion of integrins to a high-affinity state mediates a subset of shear responses, including cell alignment and gene expression2,3,4. Here we investigate the pathway upstream of integrin activation. PECAM-1 (which directly transmits mechanical force), vascular endothelial cell cadherin (which functions as an adaptor) and VEGFR2 (which activates phosphatidylinositol-3-OH kinase) comprise a mechanosensory complex. Together, these receptors are sufficient to confer responsiveness to flow in heterologous cells. In support of the relevance of this pathway in vivo, PECAM-1-knockout mice do not activate NF-κB and downstream inflammatory genes in regions of disturbed flow. Therefore, this mechanosensing pathway is required for the earliest-known events in atherogenesis.
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页码:426 / 431
页数:5
相关论文
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