Airway surface hyperviscosity and defective mucociliary transport by IL-17/TNF-α are corrected by β-adrenergic stimulus
Daniela Guidone, … , Isabelle Sermet, Luis J.V. Galietta
Daniela Guidone, … , Isabelle Sermet, Luis J.V. Galietta
Published October 11, 2022
Citation Information: JCI Insight. 2022;7(22):e164944. https://doi.org/10.1172/jci.insight.164944.
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Research Article Pulmonology

Airway surface hyperviscosity and defective mucociliary transport by IL-17/TNF-α are corrected by β-adrenergic stimulus

Abstract

The fluid covering the surface of airway epithelia represents a first barrier against pathogens. The chemical and physical properties of the airway surface fluid are controlled by the activity of ion channels and transporters. In cystic fibrosis (CF), loss of CFTR chloride channel function causes airway surface dehydration, bacterial infection, and inflammation. We investigated the effects of IL-17A plus TNF-α, 2 cytokines with relevant roles in CF and other chronic lung diseases. Transcriptome analysis revealed a profound change with upregulation of several genes involved in ion transport, antibacterial defense, and neutrophil recruitment. At the functional level, bronchial epithelia treated in vitro with the cytokine combination showed upregulation of ENaC channel, ATP12A proton pump, ADRB2 β-adrenergic receptor, and SLC26A4 anion exchanger. The overall result of IL-17A/TNF-α treatment was hyperviscosity of the airway surface, as demonstrated by fluorescence recovery after photobleaching (FRAP) experiments. Importantly, stimulation with a β-adrenergic agonist switched airway surface to a low-viscosity state in non-CF but not in CF epithelia. Our study suggests that CF lung disease is sustained by a vicious cycle in which epithelia cannot exit from the hyperviscous state, thus perpetuating the proinflammatory airway surface condition.

Authors

Daniela Guidone, Martina Buccirossi, Paolo Scudieri, Michele Genovese, Sergio Sarnataro, Rossella De Cegli, Federico Cresta, Vito Terlizzi, Gabrielle Planelles, Gilles Crambert, Isabelle Sermet, Luis J.V. Galietta

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Figure 1

Detection of ATP12A protein in nasal brushings.

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Detection of ATP12A protein in nasal brushings. (A) Low-magnification (t...
(A) Low-magnification (top) and high-magnification (bottom) representative confocal microscope images showing ATP12A protein (green) in freshly fixed nasal brushings derived from non-CF and CF patients. MUC5AC (red) and acetylated tubulin (i.e., cilia, magenta) were also detected. Rectangles in the low-magnification images indicate the magnified regions. Rectangles in the high-magnification images show areas that were considered for ATP12A expression analysis. Scale bar: 20 μm. (B) Scatter dot plot showing percentage of ATP12A+ cells in non-CF healthy individuals, CF patients, and in subjects with rhinitis (**P < 0.01 and ***P < 0.001 versus healthy control group by Kruskal-Wallis followed by Dunn’s post hoc test). (C) Percentage of ATP12A+ ciliated cells versus percentage of ATP12A+ cells in the total population. The straight line shows the best linear fit of the data (Pearson’s R = 0.6743, P < 0.001)