Role of small GTPases in endothelial cytoskeletal dynamics and the shear stress response

E Tzima - Circulation research, 2006 - Am Heart Assoc
E Tzima
Circulation research, 2006Am Heart Assoc
Fluid shear stress caused by blood flow is a major determinant of vascular remodeling and
arterial tone and can lead to development of atherosclerosis. The endothelial monolayer in
vivo acts as a signal transduction interface for hemodynamic forces; these forces determine
the shape, cytoskeletal organization, and function of endothelial cells, allowing the vessels
to cope with physiological or pathological conditions. The Ras superfamily of GTPases have
been revealed to be master regulators of many cellular activities. In particular, the GTPases …
Fluid shear stress caused by blood flow is a major determinant of vascular remodeling and arterial tone and can lead to development of atherosclerosis. The endothelial monolayer in vivo acts as a signal transduction interface for hemodynamic forces; these forces determine the shape, cytoskeletal organization, and function of endothelial cells, allowing the vessels to cope with physiological or pathological conditions. The Ras superfamily of GTPases have been revealed to be master regulators of many cellular activities. In particular, the GTPases RhoA, Rac1, and Cdc42 are known to regulate cell shape changes through effects on the cytoskeleton, but their ability to influence polarity, microtubule dynamics, and transcription factor activity is just as significant. Shear stress modulates the activity of small GTPases, which are critical for both cytoskeletal reorganization and changes in gene expression in response to shear stress. The goal of this article is to review what is known about Ras and more so about Rho GTPases in mechanotransduction and the responses of cells to fluid flow. Several distinct signaling pathways can be coordinately activated by flow, and small GTPases are strongly implicated in some of them; thus possible connections will be explored and a unifying hypothesis offered.
Am Heart Assoc