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脂氧素 A4 通过激活 P2RY11 并释放 ATP 来恢复囊性纤维化的气道表面液体层和上皮修复。

Activation of P2RY11 and ATP release by lipoxin A4 restores the airway surface liquid layer and epithelial repair in cystic fibrosis.

机构信息

1 National Children Research Centre, Dublin 12, Ireland.

出版信息

Am J Respir Cell Mol Biol. 2014 Aug;51(2):178-90. doi: 10.1165/rcmb.2012-0424OC.

DOI:10.1165/rcmb.2012-0424OC
PMID:24588705
Abstract

In cystic fibrosis (CF), the airway surface liquid (ASL) height is reduced as a result of impaired ion transport, which favors bacterial colonization and inflammation of the airway and leads to progressive lung destruction. Lipoxin (LX)A4, which promotes resolution of inflammation, is inadequately produced in the airways of patients with CF. We previously demonstrated that LXA4 stimulates an ASL height increase and epithelial repair. Here we report the molecular mechanisms involved in these processes. We found that LXA4 (1 nM) induced an apical ATP release from non-CF (NuLi-1) and CF (CuFi-1) airway epithelial cell lines and CF primary cultures. The ATP release induced by LXA4 was completely inhibited by antagonists of the ALX/FPR2 receptor and Pannexin-1 channels. LXA4 induced an increase in intracellular cAMP and calcium, which were abolished by the selective inhibition of the P2RY11 purinoreceptor. Pannexin-1 and ATP hydrolysis inhibition and P2RY11 purinoreceptor knockdown all abolished the increase of ASL height induced by LXA4. Inhibition of the A2b adenosine receptor did not affect the ASL height increase induced by LXA4, whereas the PKA inhibitor partially inhibited this response. The stimulation of NuLi-1 and CuFi-1 cell proliferation, migration, and wound repair by LXA4 was inhibited by the antagonists of Pannexin-1 channel and P2RY11 purinoreceptor. Taken together, our results provide evidence for a novel role of LXA4 in stimulating apical ATP secretion via Pannexin-1 channels and P2RY11 purinoreceptors activation leading to an ASL height increase and epithelial repair.

摘要

在囊性纤维化 (CF) 中,由于离子转运受损,气道表面液体 (ASL) 高度降低,这有利于细菌定植和气道炎症,并导致肺进行性破坏。脂氧素 (LX)A4 可促进炎症消退,但 CF 患者气道中 LXA4 的产生不足。我们之前证明 LXA4 可刺激 ASL 高度增加和上皮修复。在这里,我们报告了参与这些过程的分子机制。我们发现 LXA4(1 nM)可诱导非 CF(NuLi-1)和 CF(CuFi-1)气道上皮细胞系和 CF 原代培养物的顶端 ATP 释放。ALX/FPR2 受体和 Pannexin-1 通道的拮抗剂完全抑制 LXA4 诱导的 ATP 释放。LXA4 诱导细胞内 cAMP 和钙增加,P2RY11 嘌呤能受体的选择性抑制可消除这种增加。Pannexin-1 和 ATP 水解抑制以及 P2RY11 嘌呤能受体敲低均消除了 LXA4 诱导的 ASL 高度增加。A2b 腺苷受体的抑制不影响 LXA4 诱导的 ASL 高度增加,而 PKA 抑制剂部分抑制了这种反应。LXA4 对 NuLi-1 和 CuFi-1 细胞增殖、迁移和伤口修复的刺激被 Pannexin-1 通道和 P2RY11 嘌呤能受体拮抗剂抑制。总之,我们的结果为 LXA4 通过 Pannexin-1 通道和 P2RY11 嘌呤能受体激活刺激顶端 ATP 分泌以增加 ASL 高度和上皮修复提供了新的作用机制。

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