Dual role of the miR‐146 family in rhinovirus‐induced airway inflammation and allergic asthma exacerbation

Anet Laanesoo; Egon Urgard; Kapilraj Periyasamy; Martti Laan; Yury A. Bochkov; Alar Aab; Nathaniel Magilnick; Margus Pooga; James E. Gern; Sebastian L. Johnston; Jonathan M. Coquet; Mark P. Boldin; Jesper Wengel; Alan Altraja; Grazyna Bochenek; Bogdan Jakiela; Ana Rebane

doi:10.1002/ctm2.427

Clinical and Translational Medicine (Jun 2021)

Dual role of the miR‐146 family in rhinovirus‐induced airway inflammation and allergic asthma exacerbation

Anet Laanesoo,
Egon Urgard,
Kapilraj Periyasamy,
Martti Laan,
Yury A. Bochkov,
Alar Aab,
Nathaniel Magilnick,
Margus Pooga,
James E. Gern,
Sebastian L. Johnston,
Jonathan M. Coquet,
Mark P. Boldin,
Jesper Wengel,
Alan Altraja,
Grazyna Bochenek,
Bogdan Jakiela,
Ana Rebane

Affiliations

Anet Laanesoo: Institute of Biomedicine and Translational Medicine University of Tartu Tartu Estonia
Egon Urgard: Institute of Biomedicine and Translational Medicine University of Tartu Tartu Estonia
Kapilraj Periyasamy: Institute of Biomedicine and Translational Medicine University of Tartu Tartu Estonia
Martti Laan: Institute of Biomedicine and Translational Medicine University of Tartu Tartu Estonia
Yury A. Bochkov: School of Medicine and Public Health University of Wisconsin‐Madison Madison Wisconsin USA
Alar Aab: Institute of Biomedicine and Translational Medicine University of Tartu Tartu Estonia
Nathaniel Magilnick: Department of Molecular and Cellular Biology Beckman Research Institute of City of Hope National Medical Center Duarte California USA
Margus Pooga: Institute of Technology University of Tartu Tartu Estonia
James E. Gern: School of Medicine and Public Health University of Wisconsin‐Madison Madison Wisconsin USA
Sebastian L. Johnston: National Heart and Lung Institute Imperial College London London UK
Jonathan M. Coquet: Department of Microbiology Tumor and Cell Biology (MTC) Karolinska Institutet Stockholm Sweden
Mark P. Boldin: Department of Molecular and Cellular Biology Beckman Research Institute of City of Hope National Medical Center Duarte California USA
Jesper Wengel: Nucleic Acid Center Department of Physics Chemistry and Pharmacy University of Southern Denmark Odense Denmark
Alan Altraja: Department of Pulmonary Medicine University of Tartu Tartu Estonia
Grazyna Bochenek: Department of Medicine Jagiellonian University Medical College Krakow Poland
Bogdan Jakiela: Department of Medicine Jagiellonian University Medical College Krakow Poland
Ana Rebane: Institute of Biomedicine and Translational Medicine University of Tartu Tartu Estonia

DOI: https://doi.org/10.1002/ctm2.427
Journal volume & issue: Vol. 11, no. 6
pp. n/a – n/a

Abstract

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Abstract Rhinovirus (RV) infections are associated with asthma exacerbations. MicroRNA‐146a and microRNA‐146b (miR‐146a/b) are anti‐inflammatory miRNAs that suppress signaling through the nuclear factor kappa B (NF‐κB) pathway and inhibit pro‐inflammatory chemokine production in primary human bronchial epithelial cells (HBECs). In the current study, we aimed to explore whether miR‐146a/b could regulate cellular responses to RVs in HBECs and airways during RV‐induced asthma exacerbation. We demonstrated that expression of miR‐146a/b and pro‐inflammatory chemokines was increased in HBECs and mouse airways during RV infection. However, transfection with cell‐penetrating peptide (CPP)‐miR‐146a nanocomplexes before infection with RV significantly reduced the expression of the pro‐inflammatory chemokines CCL5, IL‐8 and CXCL1, increased interferon‐λ production, and attenuated infection with the green fluorescent protein (GFP)‐expressing RV‐A16 in HBECs. Concordantly, compared to wild‐type (wt) mice, Mir146a/b−/− mice exhibited more severe airway neutrophilia and increased T helper (Th)1 and Th17 cell infiltration in response to RV‐A1b infection and a stronger Th17 response with a less prominent Th2 response in house dust mite extract (HDM)‐induced allergic airway inflammation and RV‐induced exacerbation models. Interestingly, intranasal administration of CPP‐miR‐146a nanocomplexes reduced HDM‐induced allergic airway inflammation without a significant effect on the Th2/Th1/Th17 balance in wild‐type mice. In conclusion, the overexpression of miR‐146a has a strong anti‐inflammatory effect on RV infection in HBECs and a mouse model of allergic airway inflammation, while a lack of miR‐146a/b leads to attenuated type 2 cell responses in mouse models of allergic airway inflammation and RV‐induced exacerbation of allergic airway inflammation. Furthermore, our data indicate that the application of CPP‐miR‐146a nanocomplexes has therapeutic potential for targeting airway inflammation.

Published in Clinical and Translational Medicine

ISSN: 2001-1326 (Online)
Publisher: Wiley
Country of publisher: Australia
LCC subjects: Medicine: Medicine (General)
Website: https://onlinelibrary.wiley.com/journal/20011326

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