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Shear stress induces caveolin-1 translocation in cultured endothelial cells

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单位： [1]UHP, UMR 7563 CNRS, INPL, LEMTA,Grp Mech & Cell & Tissue Engn, F-54500 Vandoeuvre Les Nancy, France [2]China Japan Friendship Hosp, Res Inst Clin Med Sci, Beijing 100029, Peoples R China [*1]UHP, UMR 7563 CNRS, INPL, LEMTA,Grp Mech & Cell & Tissue Engn, 2 Ave Foret Haye, F-54500 Vandoeuvre Les Nancy, France

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关键词： caveolin-1 shear stress endothelial cell cytoskeleton signal transduction

摘要：

Considering that vascular endothelial caveolae could be flow sensors converting mechanical stimuli into chemical signals transmitted into the cell, this work studied, in vitro, the change of caveolin-1 expression and distribution of cultured endothelial cells exposed to laminar flows. Experimental results showed that, in control cells, caveolin-1 were primarily localized on the cell surface, and presented some local concentrations. In cells exposed to laminar flows, caveolin-1 distribution showed a time-dependent variation. After 24 h of shear (1.0 Pa), the expression of caveolin-1 increased and a local caveolin-1 concentration was found, in most cells, at the upstream side of the cell body where the hydrostatic pressure and the spatial gradient of shear stress were at a maximum. As a comparison, tumor necrosis factor-alpha induced a decrease of caveolin-1 in the cells.

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无

最新[2025]版：

大类 | 4 区生物学

小类 | 4 区生物物理

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出版当年[2000]版：

Q2 BIOPHYSICS

最新[2023]版：

Q3 BIOPHYSICS

影响因子： 最新[2023版] 2.2 最新五年平均[2021-2025] 1.8 出版当年[2000版] 2.188 出版当年五年平均[1996-2000] 0 出版前一年[1999版] 1.95 出版后一年[2001版] 1.917

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通讯机构： [*1]UHP, UMR 7563 CNRS, INPL, LEMTA,Grp Mech & Cell & Tissue Engn, 2 Ave Foret Haye, F-54500 Vandoeuvre Les Nancy, France

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