Epithelial miR-141 regulates IL-13–induced airway mucus production
Sana Siddiqui, … , David J. Erle, Prescott G. Woodruff
Sana Siddiqui, … , David J. Erle, Prescott G. Woodruff
Published March 8, 2021
Citation Information: JCI Insight. 2021;6(5):e139019. https://doi.org/10.1172/jci.insight.139019.
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Research Article Pulmonology

Epithelial miR-141 regulates IL-13–induced airway mucus production

Abstract

IL-13–induced goblet cell metaplasia contributes to airway remodeling and pathological mucus hypersecretion in asthma. miRNAs are potent modulators of cellular responses, but their role in mucus regulation is largely unexplored. We hypothesized that airway epithelial miRNAs play roles in IL-13–induced mucus regulation. miR-141 is highly expressed in human and mouse airway epithelium, is altered in bronchial brushings from asthmatic subjects at baseline, and is induced shortly after airway allergen exposure. We established a CRISPR/Cas9-based protocol to target miR-141 in primary human bronchial epithelial cells that were differentiated at air-liquid-interface, and goblet cell hyperplasia was induced by IL-13 stimulation. miR-141 disruption resulted in decreased goblet cell frequency, intracellular MUC5AC, and total secreted mucus. These effects correlated with a reduction in a goblet cell gene expression signature and enrichment of a basal cell gene expression signature defined by single cell RNA sequencing. Furthermore, intranasal administration of a sequence-specific mmu-miR-141-3p inhibitor in mice decreased Aspergillus-induced secreted mucus and mucus-producing cells in the lung and reduced airway hyperresponsiveness without affecting cellular inflammation. In conclusion, we have identified a miRNA that regulates pathological airway mucus production and is amenable to therapeutic manipulation through an inhaled route.

Authors

Sana Siddiqui, Kristina Johansson, Alex Joo, Luke R. Bonser, Kyung Duk Koh, Olivier Le Tonqueze, Samaneh Bolourchi, Rodriel A. Bautista, Lorna Zlock, Theodore L. Roth, Alexander Marson, Nirav R. Bhakta, K. Mark Ansel, Walter E. Finkbeiner, David J. Erle, Prescott G. Woodruff

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Figure 7

miR-141-3p targets a large number of genes expressed during the transition from basal cell to mucus secretory cell.

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miR-141-3p targets a large number of genes expressed during the transiti...
(A) Percentage TargetScan predicted hsa-miR-141-3p targets in distinct clusters identified by pseudotime gene expression analysis of epithelial cell differentiation from basal-like presecretory cells into mucus secretory cells in human airways. Pseudotime gene expression analysis was published by Goldfarbmuren et al. (24). (B) Percent predicted targets in pseudotime gene clusters of all TargetScan-predicted hsa-miR-141-3p targets. (C) Type of protein encoded by 281 TargetScan-predicted hsa-miR-141-3p gene targets found in pseudotime clusters. (D) Sixty-five TargetScan-predicted miR-141-3p gene targets found in pseudotime clusters and identified by differential CLEAR-CLIP analysis of primary murine epithelial cells from WT, miR-200 family–induced, and miR-200 family–double deficient mice (n = 3/group) (26). (E) Expression by RNA sequencing of 65 miR-141-3p target genes in HBECs that have undergone gene editing with NT or MIR141 gRNAs, subsequently grown at ALI with IL-13 stimulation (n = 4/group). (F) Gene expression, as assessed by single cell RNA sequencing, of bronchial epithelial brushings obtained from allergic asthmatic subjects 24 hours after segmental allergen challenge (n = 4) or diluent control (n = 4).