Sabrina Burger scite author profile

Regulation of actin dynamics is critical for endothelial barrier functions. We provide evidence that the actin-binding protein vasodilator-stimulated phosphoprotein (VASP) is required for endothelial barrier maintenance. Baseline permeability was significantly increased in VASP-deficient (VASP(-/-)) microvascular myocardial endothelial cells (MyEnd) in the absence of discernible alterations of immunostaining for adherens and tight junctions. We tested whether VASP is involved in the endothelium-stabilizing effects of cAMP or Rac 1. Forskolin and rolipram (F/R) to increase cAMP and cytotoxic necrotizing factor 1 (CNF-1) to activate Rac 1 were equally efficient to stabilize barrier functions in VASP(-/-) and wild-type (wt) cells. In wt cells, VASP was phosphorylated in response to F/R but did not localize to intercellular junctions. In contrast, CNF-1 and expression of constitutively active Rac 1 induced translocation of VASP to cell borders in wt cells, where it colocalized with active Rac 1. In VASP(-/-) cells, Rac 1 activity was reduced to 0.4 of wt levels in controls and increased approximately 20-fold in response to CNF-1 compared with 7-fold activation in wt cells. Moreover, inactivation of Rac 1 by lethal toxin led to a greater increase of permeability compared with wt cells. All these data suggest that VASP is involved in the regulation of Rac 1 activity. Taking these findings together, our study indicates that VASP at least in part stabilizes endothelial barrier functions by control of Rho-family GTPases.

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Activation of Rac-1 and Cdc42 stabilizes the microvascular endothelial barrier

Waschke

Burger

Curry

et al. 2005

Histochem Cell Biol

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We have demonstrated previously that the Rho family GTPase Rac-1 is required for maintenance of endothelial barrier functions in mouse microvascular myocardial endothelial (MyEnd) cells in vitro as well as in rat mesenteric microvessels in vivo. In this study, we tested the hypothesis that specific activation of Rac-1 would stabilize microvascular endothelial barrier functions. For this purpose we used Escherichia coli Cytotoxic necrotizing factor (CNF-1) under conditions (300 ng/ml, 120 min) where it strongly activated Rac-1 and Cdc42 but not Rho A in MyEnd cells. Under these conditions, CNF-1 induced translocation of the actin-binding proteins cortactin and vasodilator-stimulated phosphoprotein (VASP) to cell junctions, increased the junction-associated actin filament belt, and reduced monolayer permeability. We also tested the effect of CNF-1 on endothelial barrier properties in vivo using single-perfused mesenteric microvessels. In contrast to cultured microvascular monolayers, CNF-1 did not reduce baseline barrier functions assayed as hydraulic conductivity (Lp). However, following 120 min pretreatment, CNF-1 significantly attenuated the peak Lp increase in response to platelet-activating factor (PAF, 10 nM) to 12.6+/-4 x 10(-7) cm/(s cmH(2)O) compared to 46.2+/-10 x 10(-7) cm/(s cmH(2)O) in experiments using PAF alone. These experiments indicate that activation of Rac-1 and Cdc42 stabilizes microvascular endothelial barrier functions in vitro and in vivo, likely by increasing the junction-associated actin cytoskeleton.

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Differential role of Rho GTPases in endothelial barrier regulation dependent on endothelial cell origin

Baumer

Burger

Curry

et al. 2007

Histochem Cell Biol

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From studies using macrovascular endothelium, it was concluded that Rho A activation generally leads to endothelial barrier breakdown. Here, we characterized the role of Rho GTPases in endothelial barrier regulation in four different cell lines, both microvascular and macrovascular. Rho A activation by cytotoxic necrotizing factor y (CNFy) induced stress fiber formation in all cell lines. This was paralleled by gap formation and barrier breakdown in microvascular mesenteric endothelial cells (MesEnd), human dermal microvascular endothelial cells (HDMEC) as well as in macrovascular pulmonary artery endothelial cells (PAEC) but not in microvascular myocardial endothelial cells (MyEnd). In MyEnd cells, activation of Rac 1 and Cdc42 by CNF-1 strengthened barrier properties whereas in MesEnd, HDMEC and PAEC all three GTPases were activated which increased permeability in PAEC but not in MesEnd and HDMEC. In PAEC, CNF-1-induced decrease of barrier properties was blocked by the Rho kinase inhibitor Y27632 indicating that co-activation of Rho A dominated the barrier response. Inactivation of Rac 1 by toxin B or by lethal toxin (LT) compromised barrier properties in all cell lines. Taken together, Rac 1 requirement for endothelial barrier maintenance but not the destabilizing role of Rho A seems to be ubiquitous.

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Das Verständnis der Menschenwürde in der Sozialen Arbeit. Ein diffuser Begriff und seine Bedeutung für die Behindertenarbeit

Burger¹

2020

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Activation of Rho A does not impair barrier properties of microvascular endothelium

et al. 2006

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Sabrina Burger

The role of VASP in regulation of cAMP- and Rac 1-mediated endothelial barrier stabilization

Activation of Rac-1 and Cdc42 stabilizes the microvascular endothelial barrier

Differential role of Rho GTPases in endothelial barrier regulation dependent on endothelial cell origin

Das Verständnis der Menschenwürde in der Sozialen Arbeit. Ein diffuser Begriff und seine Bedeutung für die Behindertenarbeit

Activation of Rho A does not impair barrier properties of microvascular endothelium

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