A glycopolymer improves vascoelasticity and mucociliary transport of abnormal cystic fibrosis mucus
Courtney M. Fernandez-Petty, … , Shenda M. Baker, Steven M. Rowe
Courtney M. Fernandez-Petty, … , Shenda M. Baker, Steven M. Rowe
Published April 18, 2019
Citation Information: JCI Insight. 2019;4(8):e125954. https://doi.org/10.1172/jci.insight.125954.
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Research Article Genetics Pulmonology

A glycopolymer improves vascoelasticity and mucociliary transport of abnormal cystic fibrosis mucus

Abstract

Cystic fibrosis (CF) is characterized by increased mucus viscosity and delayed mucociliary clearance that contributes to progressive decline of lung function. Mucus in the respiratory and GI tract is excessively adhesive in the presence of airway dehydration and excess extracellular Ca2+ upon mucin release, promoting hyperviscous, densely packed mucins characteristic of CF. Therapies that target mucins directly through ionic interactions remain unexploited. Here we show that poly (acetyl, arginyl) glucosamine (PAAG), a polycationic biopolymer suitable for human use, interacts directly with mucins in a Ca2+-sensitive manner to reduce CF mucus viscoelasticity and improve its transport. Notably, PAAG induced a linear structure of purified MUC5B and altered its sedimentation profile and viscosity, indicative of proper mucin expansion. In vivo, PAAG nebulization improved mucociliary transport in CF rats with delayed mucus clearance, and cleared mucus plugging in CF ferrets. This study demonstrates the potential use of a synthetic glycopolymer PAAG as a molecular agent that could benefit patients with a broad array of mucus diseases.

Authors

Courtney M. Fernandez-Petty, Gareth W. Hughes, Hannah L. Bowers, John D. Watson, Bradley H. Rosen, Stacy M. Townsend, Carlo Santos, Caroline E. Ridley, Kengyeh K. Chu, Susan E. Birket, Yao Li, Hui Min Leung, Marina Mazur, Bryan A. Garcia, T. Idil Apak Evans, Emily Falk Libby, Heather Hathorne, Justin Hanes, Guillermo J. Tearney, John P. Clancy, John F. Engelhardt, William E. Swords, David J. Thornton, William P. Wiesmann, Shenda M. Baker, Steven M. Rowe

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Figure 3

The MUC5B network is structurally altered in the presence of PAAG.

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The MUC5B network is structurally altered in the presence of PAAG. Effec...
Effects of PAAG on purified MUC5B were analyzed using TEM and PTM; scale bars: 200 nm. (AE) MUC5B at a concentration 50 μg/ml was visualized untreated and in the presence of 100 μg/ml PAAG, 100 μg/ml HPMC, 10 μg/ml Ca2+ individually or in combination. Black and white arrows highlight the position of MUC5B polymers. A linearization of mucin is observed in the presence of PAAG, while HPMC treatment results in no such conformational change. Representative images are shown. (FH) MSDs of 505-nm polystyrene beads (in 0.1 M NaCl, 10 mM Tris-HCl solutions with 150 μg/ml MUC5B, 100 μg/ml PAAG, 100 μg/ml HPMC or in combination) were derived from 15 videos per sample, and repeated on 4 separate occasions. Representative tracks are shown in F. MSD values (G) were then used to derive the viscosity of each sample (H). n = 4/condition; **P < 0.01, ***P < 0.01, ****P < 0.0001 by 1-way ANOVA with Tukey’s.