microRNA-218-5p plays a protective role in eosinophilic airway inflammation via targeting δ-catenin, a novel catenin in asthma

Yuxia Liang; Yuchen Feng; Wenliang Wu; Chenli Chang; Dian Chen; Shengchong Chen; Guohua Zhen

doi:10.1111/cea.13498

microRNA-218-5p plays a protective role in eosinophilic airway inflammation via targeting δ-catenin, a novel catenin in asthma

Clin Exp Allergy. 2020 Jan;50(1):29-40. doi: 10.1111/cea.13498. Epub 2019 Oct 6.

Authors

Yuxia Liang^{1

2}, Yuchen Feng^{1

2}, Wenliang Wu^{1

2}, Chenli Chang^{1

2}, Dian Chen^{1

2}, Shengchong Chen^{1

2}, Guohua Zhen^{1

2}

Affiliations

¹ Division of Respiratory and Critical Care Medicine, Department of Internal Medicine, Tongji Medical College, Tongji Hospital, Huazhong University of Science and Technology, Wuhan, China.
² Key Laboratory of Respiratory Diseases of Ministry of Health, Wuhan, China.

PMID: 31520422
DOI: 10.1111/cea.13498

Abstract

Background: microRNA (miR)-218-5p is involved in cigarette smoke-induced airway inflammation. In our earlier asthma epithelial miRNA profiling data, miR-218-5p was the top 2 down-regulated miRNA. We hypothesize that miR-218-5p plays a role in asthma airway inflammation.

Objective: To unveil the role of miR-218-5p and its target gene in asthma airway inflammation.

Methods: We measured miR-218-5p expression in bronchial brushings of asthma patients (n = 50) and healthy controls (n = 15), and analysed the correlations between miR-218-5p expression and airway eosinophilia. We examined whether CTNND2 was a target of miR-218-5p, and the expression of 12 catenin family members in bronchial brushings, in cultured human bronchial epithelial (HBE) cells and BEAS-2B cells. We explored the role of miR-218-5p-CTNND2 pathway using a murine model of allergic airway inflammation.

Results: Epithelial miR-218-5p expression was significantly decreased and negatively correlated with eosinophils in induced sputum and bronchial biopsies, and other type 2 biomarkers in asthma patients. We verified that CTNND2 (encoding δ-catenin) was a target of miR-218-5p. Remarkably, CTNND2 was the most significantly up-regulated catenin compared with the other 11 catenin family members in bronchial brushings of asthma patients, IL-13-stimulated HBE and BEAS-2B cells. Moreover, epithelial CTNND2 expression positively correlated with airway eosinophilia in asthma. Airway mmu-miR-218-5p expression was also decreased, and Ctnnd2 expression was increased in a murine model of allergic airway inflammation. Intriguingly, mmu-miR-218-5p overexpression suppressed airway hyperresponsiveness, eosinophilic airway inflammation and Ctnnd2 up-regulation in the mouse model. Finally, perturbation of miR-218-5p or CTNND2 expression significantly altered chemokine CCL26 expression in the cell cultures and the mouse model.

Conclusions and clinical relevance: Epithelial miR-218-5p plays a protective role in eosinophilic airway inflammation via targeting CTNND2, a novel catenin in asthma, and suppressing chemokine CCL26 expression.

Keywords: asthma; eosinophilia; epithelial cell; microRNA; δ-catenin.

Publication types

Research Support, Non-U.S. Gov't

MeSH terms

Animals
Asthma / genetics*
Asthma / metabolism
Bronchi / metabolism
Case-Control Studies
Catenins / genetics*
Cell Line
Cells, Cultured
Chemokine CCL11 / metabolism
Chemokine CCL24 / metabolism
Chemokine CCL26 / metabolism*
Delta Catenin
Eosinophilia / genetics*
Eosinophilia / metabolism
Gene Expression
Humans
Mice
MicroRNAs / genetics*

Substances

Catenins
Chemokine CCL11
Chemokine CCL24
Chemokine CCL26
MIRN218 microRNA, human
MIRN218 microRNA, mouse
MicroRNAs
Delta Catenin