关键词: VE-cadherin acute lung injury small Rho GTPases αvβ6 β-catenin

Mesh : Actin Cytoskeleton / metabolism Adherens Junctions / metabolism Animals Antigens, Neoplasm / metabolism Cadherins / metabolism Capillary Permeability Cells, Cultured Focal Adhesion Protein-Tyrosine Kinases / metabolism Humans Integrins / metabolism Lung / metabolism microbiology Mice Pneumonia / metabolism Pseudomonas Infections / metabolism Pseudomonas aeruginosa / pathogenicity Rats Transforming Growth Factor beta / metabolism Wiskott-Aldrich Syndrome Protein / genetics metabolism beta Catenin / metabolism rho GTP-Binding Proteins / metabolism

来  源:   DOI:10.1096/fj.201902915R   PDF(Sci-hub)   PDF(Pubmed)

Abstract:
Pulmonary edema associated with increased vascular permeability is a severe complication of Pseudomonas (P.) aeruginosa-induced acute lung injury. The mechanisms underlying P aeruginosa-induced vascular permeability are not well understood. In the present study, we investigated the role of neuronal Wiskott Aldrich syndrome protein (N-WASP) in modulating P aeruginosa-induced vascular permeability. Using lung microvascular endothelial and alveolar epithelial cells, we demonstrated that N-WASP downregulation attenuated P aeruginosa-induced actin stress fiber formation and prevented paracellular permeability. P aeruginosa-induced dissociation between VE-cadherin and β-catenin, but increased association between N-WASP and VE-cadherin, suggesting a role for N-WASP in promoting P aeruginosa-induced adherens junction rupture. P aeruginosa increased N-WASP-Y256 phosphorylation, which required the activation of Rho GTPase and focal adhesion kinase. Increased N-WASP-Y256 phosphorylation promotes N-WASP and integrin αVβ6 association as well as TGF-β-mediated permeability across alveolar epithelial cells. Inhibition of N-WASP-Y256 phosphorylation by N-WASP-Y256F overexpression blocked N-WASP effects in P aeruginosa-induced actin stress fiber formation and increased paracellular permeability. In vivo, N-WASP knockdown attenuated the development of pulmonary edema and improved survival in a mouse model of P aeruginosa pneumonia. Together, our data demonstrate that N-WASP plays an essential role in P aeruginosa-induced vascular permeability and pulmonary edema through the modulation of actin cytoskeleton dynamics.
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