LIM激酶1促进小鼠肺部内皮屏障破坏和中性粒细胞浸润。

LIM kinase 1 promotes endothelial barrier disruption and neutrophil infiltration in mouse lungs.

作者信息

Gorovoy Matvey, Han Jingyan, Pan Haiyun, Welch Emily, Neamu Radu, Jia Zhengping, Predescu Dan, Vogel Stephen, Minshall Richard D, Ye Richard D, Malik Asrar B, Voyno-Yasenetskaya Tatyana

机构信息

Department of Pharmacology , University of Illinois at Chicago, 909 S Wolcott Ave, Chicago, IL 60612, USA.

出版信息

Circ Res. 2009 Sep 11;105(6):549-56. doi: 10.1161/CIRCRESAHA.109.195883. Epub 2009 Aug 13.

DOI:10.1161/CIRCRESAHA.109.195883

PMID:19679840

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3718297/

Abstract

RATIONALE

Disruption of endothelial barrier function and neutrophil-mediated injury are two major mechanisms underlying the pathophysiology of sepsis-induced acute lung injury (ALI). Recently we reported that endotoxin induced activation of RhoA in mice lungs that led to the disruption of endothelial barrier and lung edema formation; however, the molecular mechanism of this phenomenon remained unknown.

OBJECTIVE

We reasoned that LIMK1, which participates in the regulation of endothelial cell contractility and is activated by RhoA/Rho kinase pathway, could mediate RhoA-dependent disruption of endothelial barrier function in mouse lungs during ALI. And if that is the case, then attenuation of endothelial cell contractility by downregulating LIMK1 may lead to the enhancement of endothelial barrier function, which could protect mice from endotoxin-induced ALI.

METHODS AND RESULTS

Here we report that LIMK1 deficiency in mice significantly reduced mortality induced by endotoxin. Data showed that lung edema formation, lung microvascular permeability, and neutrophil infiltration into the lungs were suppressed in limk1(-/-) mice.

CONCLUSIONS

We identified that improvement of endothelial barrier function along with impaired neutrophil chemotaxis were the underlying mechanisms that reduced severity of ALI in limk1(-/-) mice, pointing to a new therapeutic target for diseases associated with acute inflammation of the lungs.

摘要

理论依据

内皮屏障功能破坏和中性粒细胞介导的损伤是脓毒症诱导的急性肺损伤（ALI）病理生理学的两个主要机制。最近我们报道内毒素诱导小鼠肺中RhoA激活，导致内皮屏障破坏和肺水肿形成；然而，这一现象的分子机制仍不清楚。

目的

我们推测，参与调节内皮细胞收缩性并由RhoA/Rho激酶途径激活的LIMK1，可能在ALI期间介导小鼠肺中RhoA依赖性的内皮屏障功能破坏。如果是这样，那么通过下调LIMK1减弱内皮细胞收缩性可能导致内皮屏障功能增强，从而保护小鼠免受内毒素诱导的ALI。

方法与结果

在此我们报道，小鼠中LIMK1缺陷显著降低了内毒素诱导的死亡率。数据显示，limk1(-/-)小鼠的肺水肿形成、肺微血管通透性以及中性粒细胞向肺内浸润均受到抑制。

结论

我们确定，内皮屏障功能改善以及中性粒细胞趋化性受损是limk1(-/-)小鼠ALI严重程度降低的潜在机制，这为与急性肺部炎症相关的疾病指出了一个新的治疗靶点。

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