The Rho/Rac exchange factor Vav2 controls nitric oxide–dependent responses in mouse vascular smooth muscle cells
Vincent Sauzeau, María A. Sevilla, María J. Montero, Xosé R. Bustelo
Vincent Sauzeau, María A. Sevilla, María J. Montero, Xosé R. Bustelo
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Research Article Vascular biology

The Rho/Rac exchange factor Vav2 controls nitric oxide–dependent responses in mouse vascular smooth muscle cells

Abstract

The regulation of arterial contractility is essential for blood pressure control. The GTPase RhoA promotes vasoconstriction by modulating the cytoskeleton of vascular smooth muscle cells. Whether other Rho/Rac pathways contribute to blood pressure regulation remains unknown. By studying a hypertensive knockout mouse lacking the Rho/Rac activator Vav2, we have discovered a new signaling pathway involving Vav2, the GTPase Rac1, and the serine/threonine kinase Pak that contributes to nitric oxide–triggered blood vessel relaxation and normotensia. This pathway mediated the Pak-dependent inhibition of phosphodiesterase type 5, a process that favored RhoA inactivation and the subsequent depolymerization of the F-actin cytoskeleton in vascular smooth muscle cells. The inhibition of phosphodiesterase type 5 required its physical interaction with autophosphorylated Pak1 but, unexpectedly, occurred without detectable transphosphorylation events between those 2 proteins. The administration of phosphodiesterase type 5 inhibitors prevented the development of hypertension and cardiovascular disease in Vav2-deficient animals, demonstrating the involvement of this new pathway in blood pressure regulation. Taken together, these results unveil one cause of the cardiovascular phenotype of Vav2-knockout mice, identify a new Rac1/Pak1 signaling pathway, and provide a mechanistic framework for better understanding blood pressure control in physiological and pathological states.

Authors

Vincent Sauzeau, María A. Sevilla, María J. Montero, Xosé R. Bustelo

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Figure 6

Addition of a cGMP analogue induces normal vasodilatation responses in Vav2–/– renal arteries.

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Addition of a cGMP analogue induces normal vasodilatation responses in V...
(A) Real-time recordings of the response of phenylephrine-constricted renal arteries from the indicated mouse strains to the sequential administration of 8-pCPT-cGMP. Scale bar: 10 minutes. (B) Percentage of vessel relaxation induced by the indicated doses of 8-pCPT-cGMP on phenylephrine-constricted renal arteries from 4-month-old (left panel; n = 5–6) and 2-month-old (right panel; n = 3–6) animals. (C) Percentage of relaxation induced by acetylcholine after phenylephrine administration in renal arteries from control and Vav2-knockout mice. When indicated, kidneys were perfused with 10 μM zaprinast 30 minutes prior to the phenylephrine stimulation to inhibit PDE5. #P < 0.05; *P < 0.01 compared with wild-type controls. Data are shown as mean ± SEM.