TY - JOUR
T1 - The Influence of Shear Stress on Cultured Vascular Endothelial Cells
T2 - The Stress Response of an Anchorage‐Dependent Mammalian Cell
AU - Levesque, M. J.
AU - Sprague, E. A.
AU - Schwartz, C. J.
AU - Nerem, R. M.
PY - 1989/3
Y1 - 1989/3
N2 - The influence of hydrodynamic forces on anchorage‐dependent mammalian cells is of interest both in biomedical research and in the development of scaled‐up mammalian cell bioreactor systems. Our own studies, reviewed here, have demonstrated that, in response to a fluid‐imposed laminar shear stress, cultured vascular endothelial cells undergo a dramatic alteration in structure and function. From these and related studies, it may be possible to obtain some insight into the general response of anchorage‐dependent mammalian cells to hydrodynamic forces. An unanswered question is: how does such a cell recognize and then transduce a fluid mechanic signal?
AB - The influence of hydrodynamic forces on anchorage‐dependent mammalian cells is of interest both in biomedical research and in the development of scaled‐up mammalian cell bioreactor systems. Our own studies, reviewed here, have demonstrated that, in response to a fluid‐imposed laminar shear stress, cultured vascular endothelial cells undergo a dramatic alteration in structure and function. From these and related studies, it may be possible to obtain some insight into the general response of anchorage‐dependent mammalian cells to hydrodynamic forces. An unanswered question is: how does such a cell recognize and then transduce a fluid mechanic signal?
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U2 - 10.1002/btpr.5420050105
DO - 10.1002/btpr.5420050105
M3 - Article
AN - SCOPUS:0024628781
SN - 8756-7938
VL - 5
SP - 1
EP - 8
JO - Biotechnology Progress
JF - Biotechnology Progress
IS - 1
ER -