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旁分泌嘌呤能信号传导决定肺内皮细胞一氧化氮的产生。

Paracrine purinergic signaling determines lung endothelial nitric oxide production.

作者信息

Kiefmann Rainer, Islam Mohammad N, Lindert Jens, Parthasarathi Kaushik, Bhattacharya Jahar

机构信息

Lung Biology Laboratory, Department of Medicine, College of Physicians and Surgeons, Columbia University, St. Luke's-Roosevelt Hospital Center, New York, New York, USA.

出版信息

Am J Physiol Lung Cell Mol Physiol. 2009 Jun;296(6):L901-10. doi: 10.1152/ajplung.90549.2008. Epub 2009 Mar 20.

DOI:10.1152/ajplung.90549.2008
PMID:19304909
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2692805/
Abstract

Although the vascular bed is a major source of nitric oxide (NO) production, factors regulating the production remain unclear. We considered the role played by paracrine signaling. Determinations by fluorescence microscopy in isolated, blood-perfused rat and mouse lungs revealed that a brief lung expansion enhanced cytosolic Ca(2+) (Ca(2+)cyt) oscillations in alveolar epithelial (AEC) and endothelial (EC) cells, and NO production in EC. Furthermore, as assessed by a novel microlavage assay, alveolar ATP production increased. Intra-alveolar microinfusion of the purinergic receptor antagonist, PPADS, and the nucleotide hydrolyzing enzyme, apyrase, each completely blocked the Ca(2+)cyt and NO responses in EC. Lung expansion induced Ca(2+)cyt oscillations in mice lacking the P2Y1, but not the P2Y2, purinergic receptors, which were located in the perivascular interstitium basolateral to AEC. Prolonged lung expansion instituted by mechanical ventilation at high tidal volume increased EC expression of nitrotyrosine, indicating development of nitrosative stress in lung microvessels. These findings reveal a novel mechanism in which mechanically induced purinergic signaling couples cross-compartmental Ca(2+)cyt oscillations to microvascular NO production.

摘要

尽管血管床是一氧化氮(NO)产生的主要来源,但调节其产生的因素仍不清楚。我们考虑了旁分泌信号传导所起的作用。通过荧光显微镜对分离的、有血液灌注的大鼠和小鼠肺进行检测,结果显示,短暂的肺扩张增强了肺泡上皮(AEC)和内皮(EC)细胞中的胞质Ca(2+)(Ca(2+)cyt)振荡以及EC中的NO产生。此外,通过一种新型微灌洗试验评估发现,肺泡ATP产生增加。向肺泡内微量注入嘌呤能受体拮抗剂PPADS和核苷酸水解酶Apyrase,均可完全阻断EC中的Ca(2+)cyt和NO反应。肺扩张在缺乏P2Y1但不缺乏P2Y2嘌呤能受体的小鼠中诱导了Ca(2+)cyt振荡,这些受体位于AEC基底外侧的血管周围间质中。高潮气量机械通气引起的长时间肺扩张增加了EC中硝基酪氨酸的表达,表明肺微血管中发生了亚硝化应激。这些发现揭示了一种新机制,即机械诱导的嘌呤能信号传导将跨隔室的Ca(2+)cyt振荡与微血管NO产生联系起来。

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