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miR449 Protects Airway Regeneration by Controlling AURKA/HDAC6-Mediated Ciliary Disassembly
Date Issued
2022
Author(s)
Wildung, Merit
Herr, Christian
Wiedwald, Cornelia
Moiseenko, Alena
Ramírez, Fidel
Tasena, Hataitip
Heimerl, Maren
Alevra, Mihai
Movsisyan, Naira
Schuldt, Maike
Volceanov-Hahn, Larisa
Provoost, Sharen
Nöthe-Menchen, Tabea
Urrego, Diana
Freytag, Bernard
Wallmeier, Julia
Beisswenger, Christoph
Bals, Robert
van den Berge, Maarten
Timens, Wim
Hiemstra, Pieter S.
Brandsma, Corry-Anke
Maes, Tania
Heijink, Irene H.
DOI
10.3390/ijms23147749
Abstract
Airway mucociliary regeneration and function are key players for airway defense and are impaired in chronic obstructive pulmonary disease (COPD). Using transcriptome analysis in COPD-derived bronchial biopsies, we observed a positive correlation between cilia-related genes and microRNA-449 (miR449). In vitro, miR449 was strongly increased during airway epithelial mucociliary differentiation. In vivo, miR449 was upregulated during recovery from chemical or infective insults. miR0449−/− mice (both alleles are deleted) showed impaired ciliated epithelial regeneration after naphthalene and Haemophilus influenzae exposure, accompanied by more intense inflammation and emphysematous manifestations of COPD. The latter occurred spontaneously in aged miR449−/− mice. We identified Aurora kinase A and its effector target HDAC6 as key mediators in miR449-regulated ciliary homeostasis and epithelial regeneration. Aurora kinase A is downregulated upon miR449 overexpression in vitro and upregulated in miR449−/− mouse lungs. Accordingly, imaging studies showed profoundly altered cilia length and morphology accompanied by reduced mucociliary clearance. Pharmacological inhibition of HDAC6 rescued cilia length and coverage in miR449−/− cells, consistent with its tubulin-deacetylating function. Altogether, our study establishes a link between miR449, ciliary dysfunction, and COPD pathogenesis.
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ijms-23-07749-v3.pdf
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