Wild-type p53 enhances endothelial barrier function by mediating RAC1 signalling and RhoA inhibition.

Nektarios Barabutis,Betsy Gregory,Christiana Dimitropoulou,John D Catravas

doi:10.1111/jcmm.13460

Abstract

Inflammation is the major cause of endothelial barrier hyper‐permeability, associated with acute lung injury and acute respiratory distress syndrome. This study reports that p53 “orchestrates” the defence of vascular endothelium against LPS, by mediating the opposing actions of Rac1 and RhoA in pulmonary tissues. Human lung microvascular endothelial cells treated with HSP90 inhibitors activated both Rac1‐ and P21‐activated kinase, which is an essential element of vascular barrier function. 17AAG increased the phosphorylation of both LIMK and cofilin, in contrast to LPS which counteracted those effects. Mouse lung microvascular endothelial cells exposed to LPS exhibited decreased expression of phospho‐cofilin. 17AAG treatment resulted in reduced levels of active cofilin. Silencing of cofilin pyridoxal phosphate phosphatase (PDXP) blocked the LPS‐induced hyper‐permeability, and P53 inhibition reversed the 17AAG‐induced PDXP down‐regulation. P190RHOGAP suppression enhanced the LPS‐triggered barrier dysfunction in endothelial monolayers. 17AAG treatment resulted in P190RHOGAP induction and blocked the LPS‐induced pMLC2 up‐regulation in wild‐type mice. Pulmonary endothelial cells from “super p53” mice, which carry additional p53‐tg alleles, exhibited a lower response to LPS than the controls. Collectively, our findings help elucidate the mechanisms by which p53 operates to enhance barrier function.

Highlights

P53 is involved in the regulation of various intracellular cascades which orchestrate molecular responses to numerous environmental stimuli
Mouse lung microvascular endothelial cells (MLMVEC) from “super p53” mice overexpress p53 compared to wild type, but exhibit comparable sensitivity to LPS challenge, in vitro
mouse lung microvascular endothelial cells (MLMVEC) isolated from wild-type mice were treated in vitro for 16 h with either 0.1% DMSO or 17AAG before a 1-hr treatment with PBS or LPS (10 EU/ml)

Summary

Introduction

P53 is involved in the regulation of various intracellular cascades which orchestrate molecular responses to numerous environmental stimuli. It governs cellular fate, by promoting cell cycle arrest, apoptosis or senescence. By promoting cell cycle arrest, apoptosis or senescence This transcription factor was discovered 30 years ago as the cellular partner of simian virus 40 large T antigen. Inflammation is a major cause of endothelial barrier dysfunction and hyper-permeability, leading to acute lung injury (ALI) and acute respiratory distress syndrome (ARDS) [2]. The development of new therapeutic strategies against these devastating pathologies has been slow, and mortality of patients suffering from ARDS remains around 40% [3]

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