臭氧暴露诱导由 IL-33 控制的呼吸屏障双相损伤和炎症。

Ozone exposure induces respiratory barrier biphasic injury and inflammation controlled by IL-33.

机构信息

Laboratory of Experimental and Molecular Immunology and Neurogenetics (INEM), UMR 7355 CNRS-University of Orleans, Orleans, France.

ArtImmune SAS, Orleans, France.

出版信息

J Allergy Clin Immunol. 2018 Sep;142(3):942-958. doi: 10.1016/j.jaci.2017.11.044. Epub 2018 Jan 10.

DOI:10.1016/j.jaci.2017.11.044

PMID:29331644

Abstract

BACKGROUND

IL-33 plays a critical role in regulation of tissue homeostasis, injury, and repair. Whether IL-33 regulates neutrophil recruitment and functions independently of airways hyperresponsiveness (AHR) in the setting of ozone-induced lung injury and inflammation is unclear.

OBJECTIVE

We sought to examine the role of the IL-33/ST2 axis in lung inflammation on acute ozone exposure in mice.

METHODS

ST2- and Il33-deficient, IL-33 citrine reporter, and C57BL/6 (wild-type) mice underwent a single ozone exposure (1 ppm for 1 hour) in all studies. Cell recruitment in lung tissue and the bronchoalveolar space, inflammatory parameters, epithelial barrier damage, and airway hyperresponsiveness (AHR) were determined.

RESULTS

We report that a single ozone exposure causes rapid disruption of the epithelial barrier within 1 hour, followed by a second phase of respiratory barrier injury with increased neutrophil recruitment, reactive oxygen species production, AHR, and IL-33 expression in epithelial and myeloid cells in wild-type mice. In the absence of IL-33 or IL-33 receptor/ST2, epithelial cell injury with protein leak and myeloid cell recruitment and inflammation are further increased, whereas the tight junction proteins E-cadherin and zonula occludens 1 and reactive oxygen species expression in neutrophils and AHR are diminished. ST2 neutralization recapitulated the enhanced ozone-induced neutrophilic inflammation. However, myeloid cell depletion using GR-1 antibody reduced ozone-induced lung inflammation, epithelial cell injury, and protein leak, whereas administration of recombinant mouse IL-33 reduced neutrophil recruitment in Il33-deficient mice.

CONCLUSION

Data demonstrate that ozone causes an immediate barrier injury that precedes myeloid cell-mediated inflammatory injury under the control of the IL-33/ST2 axis. Thus IL-33/ST2 signaling is critical for maintenance of intact epithelial barrier and inflammation.

摘要

背景

IL-33 在组织稳态、损伤和修复的调节中起着关键作用。在臭氧诱导的肺损伤和炎症中，IL-33 是否独立于气道高反应性（AHR）调节中性粒细胞募集和功能尚不清楚。

目的

我们旨在研究 IL-33/ST2 轴在小鼠臭氧暴露急性肺炎症中的作用。

方法

在所有研究中，ST2 和 Il33 缺陷型、IL-33 金桔报告基因、C57BL/6（野生型）小鼠均接受单次臭氧暴露（1ppm 1 小时）。检测肺组织和肺泡腔中的细胞募集、炎症参数、上皮屏障损伤和气道高反应性（AHR）。

结果

我们报告称，单次臭氧暴露在 1 小时内迅速破坏上皮屏障，随后第二阶段呼吸屏障损伤，野生型小鼠上皮细胞和髓样细胞中出现中性粒细胞募集、活性氧（ROS）产生、AHR 和 IL-33 表达增加。在缺乏 IL-33 或 IL-33 受体/ST2 的情况下，上皮细胞损伤导致蛋白渗漏和髓样细胞募集和炎症进一步增加，而紧密连接蛋白 E-钙粘蛋白和紧密连接蛋白 1 和中性粒细胞中的 ROS 表达以及 AHR 减少。ST2 中和再现了增强的臭氧诱导的中性粒细胞炎症。然而，使用 GR-1 抗体耗尽髓样细胞可减少臭氧诱导的肺炎症、上皮细胞损伤和蛋白渗漏，而给予重组小鼠 IL-33 可减少 Il33 缺陷型小鼠中的中性粒细胞募集。

结论

数据表明，臭氧会导致立即的屏障损伤，随后是髓样细胞介导的炎症损伤，受 IL-33/ST2 轴的控制。因此，IL-33/ST2 信号对维持完整的上皮屏障和炎症至关重要。

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臭氧暴露诱导由 IL-33 控制的呼吸屏障双相损伤和炎症。

Ozone exposure induces respiratory barrier biphasic injury and inflammation controlled by IL-33.

机构信息

出版信息

BACKGROUND

OBJECTIVE

METHODS

RESULTS

CONCLUSION

背景

目的

方法

结果

结论

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