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Issue title: Selected papers of the Euromech Colloquium No. 420, Mechanobiology of Cells and Tissues
Article type: Research Article
Authors: Sun, R.J.; | Muller, S. | Zhuang, F.Y. | Stoltz, J.F. | Wang, X.;
Affiliations: Cell and Tissue Engineering and Mechanics, LEMTA‐UMR 7563 CNRS/INPL/UHP and IFR 111 Bioengineering, 2 avenue de la Forêt de Haye, 54500 Vandoeuvre‐lès‐Nancy, France | Research Institute of Clinical Medical Sciences, China‐Japan Friendship Hospital, Beijing, 100029, China
Note: [] Address for correspondence: Dr. X. Wang, LEMTA‐ UMR‐CNRS 7563, 2 Avenue de la Forêt de Haye, 54500‐Vandoeuvre‐lès‐Nancy, France. Fax: +33 3 83 59 55 44; E‐mail: xwang@ensem.inpl‐nancy.fr.
Abstract: Caveolin‐1 is a principal component of caveolae and is involved in signaling transduction in a number of cells. A hypothesis was proposed in this work that mechanical forces due to flow induce caveolin‐1 translocation. So the changes of caveolin‐1 expression and distribution in cultured endothelial cells (HUVECs) exposed to a steady laminar flow were studied. For comparing with the influence of cytokine, caveolin‐1 in the cells stimulated by TNF‐α was also investigated. Indirect immunofluorescence and double fluorescence labeling showed that in control cells, caveolin‐1 was primarily localized on the cell surface, which corresponded to the peripheral distribution of F‐actin, and presented some local concentrations. In the cells exposed to a laminar flow (1.0 Pa), caveolin‐1 distribution showed a time‐dependent variation. After 24 h of shear, the local concentration of caveolin‐1 was found, in the most cells, at upstream side of cell body. Also more caveolin‐1 molecules were observed in the cells. In contrast, TNF‐α induced a decrease of caveolin‐1 in cells. The redistribution of caveolin‐1 seems to be correlated to F‐actin organization.
Keywords: Caveolin‐1, shear stress, endothelial cell, TNF‐α, F‐actin, signal transduction
Journal: Biorheology, vol. 40, no. 1-3, pp. 31-39, 2003
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