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Different Munc18 proteins mediate baseline and stimulated airway mucin secretion
Ana M. Jaramillo, Lucia Piccotti, Walter V. Velasco, Anna Sofia Huerta Delgado, Zoulikha Azzegagh, Felicity Chung, Usman Nazeer, Junaid Farooq, Josh Brenner, Jan Parker-Thornburg, Brenton L. Scott, Christopher M. Evans, Roberto Adachi, Alan R. Burns, Silvia M. Kreda, Michael J. Tuvim, Burton F. Dickey
Ana M. Jaramillo, Lucia Piccotti, Walter V. Velasco, Anna Sofia Huerta Delgado, Zoulikha Azzegagh, Felicity Chung, Usman Nazeer, Junaid Farooq, Josh Brenner, Jan Parker-Thornburg, Brenton L. Scott, Christopher M. Evans, Roberto Adachi, Alan R. Burns, Silvia M. Kreda, Michael J. Tuvim, Burton F. Dickey
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Research Article Cell biology Pulmonology

Different Munc18 proteins mediate baseline and stimulated airway mucin secretion

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Abstract

Airway mucin secretion is necessary for ciliary clearance of inhaled particles and pathogens but can be detrimental in pathologies such as asthma and cystic fibrosis. Exocytosis in mammals requires a Munc18 scaffolding protein, and airway secretory cells express all 3 Munc18 isoforms. Using conditional airway epithelial cell–deletant mice, we found that Munc18a has the major role in baseline mucin secretion, Munc18b has the major role in stimulated mucin secretion, and Munc18c does not function in mucin secretion. In an allergic asthma model, Munc18b deletion reduced airway mucus occlusion and airflow resistance. In a cystic fibrosis model, Munc18b deletion reduced airway mucus occlusion and emphysema. Munc18b deficiency in the airway epithelium did not result in any abnormalities of lung structure, particle clearance, inflammation, or bacterial infection. Our results show that regulated secretion in a polarized epithelial cell may involve more than one exocytic machine at the apical plasma membrane and that the protective roles of mucin secretion can be preserved while therapeutically targeting its pathologic roles.

Authors

Ana M. Jaramillo, Lucia Piccotti, Walter V. Velasco, Anna Sofia Huerta Delgado, Zoulikha Azzegagh, Felicity Chung, Usman Nazeer, Junaid Farooq, Josh Brenner, Jan Parker-Thornburg, Brenton L. Scott, Christopher M. Evans, Roberto Adachi, Alan R. Burns, Silvia M. Kreda, Michael J. Tuvim, Burton F. Dickey

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Figure 2

In situ hybridization of Munc18 isoforms.

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In situ hybridization of Munc18 isoforms.
Representative images of in si...
Representative images of in situ hybridization with fluorescent-labeled riboprobes (shown in red), specific for murine Munc18a (A), Munc18b (B), and Munc18c (C). Sections are from naive (uninflamed) lungs of floxed and conditional deletant mice. CCSP was used as a secretory cell marker (shown in purple) and acetylated tubulin as a ciliated cell marker (shown in green). Graphs show quantification of dots per cell type, per genotype, for each probe. (D) Quantification of riboprobes in the subepithelial tissue. Scale bar: 30 μm (n = 3 mice per group). (A) Secretory versus ciliated (18aF/F), P = 0.03; secretory (18aF/F) versus secretory (18aΔ/Δ), P = 0.0038; ciliated (18aF/F) versus ciliated (18aΔ/Δ), P = 0.0254. (B) Secretory versus ciliated (18bF/F), P = 0.0012; secretory (18bF/F) versus secretory (18bΔ/Δ), P = 0.0002; ciliated (18bF/F) versus ciliated (18bΔ/Δ), P = 0.0253. (C) Secretory (18cF/F) versus secretory (18cΔ/Δ), P = 0.0017; ciliated (18cF/F) versus ciliated (18cΔ/Δ), P = 0.0004, Student’s 2-tailed t test. #P = 0.05 between cell types; *P = 0.05 within cell type.

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