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变应性炎症诱导小鼠中血栓素介导的气道收缩的持续机制转换。

Allergic inflammation induces a persistent mechanistic switch in thromboxane-mediated airway constriction in the mouse.

机构信息

Curriculum in Genetics and Molecular Biology, University of North Carolina at Chapel Hill, Chapel Hill, North Carolina 27599-7264, USA.

出版信息

Am J Physiol Lung Cell Mol Physiol. 2012 Jan 1;302(1):L140-51. doi: 10.1152/ajplung.00152.2011. Epub 2011 Oct 7.

DOI:10.1152/ajplung.00152.2011
PMID:21984570
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3349367/
Abstract

Actions of thromboxane (TXA(2)) to alter airway resistance were first identified over 25 years ago. However, the mechanism underlying this physiological response has remained largely undefined. Here we address this question using a novel panel of mice in which expression of the thromboxane receptor (TP) has been genetically manipulated. We show that the response of the airways to TXA(2) is complex: it depends on expression of other G protein-coupled receptors but also on the physiological context of the signal. In the healthy airway, TXA(2)-mediated airway constriction depends on expression of TP receptors by smooth muscle cells. In contrast, in the inflamed lung, the direct actions of TXA(2) on smooth muscle cell TP receptors no longer contribute to bronchoconstriction. Instead, in allergic lung disease, TXA(2)-mediated airway constriction depends on neuronal TP receptors. Furthermore, this mechanistic switch persists long after resolution of pulmonary inflammation. Our findings demonstrate the powerful ability of lung inflammation to modify pathways leading to airway constriction, resulting in persistent changes in mechanisms of airway reactivity to key bronchoconstrictors. Such alterations are likely to shape the pathogenesis of asthmatic lung disease.

摘要

血栓素(TXA(2))改变气道阻力的作用早在 25 年前就被首次发现。然而,这种生理反应的机制在很大程度上仍未得到明确。在这里,我们使用一组新型的小鼠来解决这个问题,这些小鼠的血栓素受体(TP)的表达已经通过基因操作进行了修饰。我们表明,气道对 TXA(2)的反应是复杂的:它不仅依赖于其他 G 蛋白偶联受体的表达,还依赖于信号的生理背景。在健康的气道中,TXA(2)介导的气道收缩依赖于平滑肌细胞中 TP 受体的表达。相比之下,在发炎的肺部,TXA(2)对平滑肌细胞 TP 受体的直接作用不再导致气道收缩。相反,在过敏性肺病中,TXA(2)介导的气道收缩依赖于神经元 TP 受体。此外,这种机制转换在肺部炎症消退后很长时间仍然存在。我们的发现表明,肺部炎症具有强大的能力来改变导致气道收缩的途径,从而导致对关键气道收缩剂的气道反应性机制发生持续变化。这种改变可能会影响哮喘性肺病的发病机制。

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