Defective postsecretory maturation of MUC5B mucin in cystic fibrosis airways
Lubna H. Abdullah, Jessica R. Evans, T. Tiffany Wang, Amina A. Ford, Alexander M. Makhov, Kristine Nguyen, Raymond D. Coakley, Jack D. Griffith, C. William Davis, Stephen T. Ballard, Mehmet Kesimer
Lubna H. Abdullah, Jessica R. Evans, T. Tiffany Wang, Amina A. Ford, Alexander M. Makhov, Kristine Nguyen, Raymond D. Coakley, Jack D. Griffith, C. William Davis, Stephen T. Ballard, Mehmet Kesimer
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Research Article Pulmonology

Defective postsecretory maturation of MUC5B mucin in cystic fibrosis airways

Abstract

In cystic fibrosis (CF), airway mucus becomes thick and viscous, and its clearance from the airways is impaired. The gel-forming mucins undergo an ordered “unpacking/maturation” process after granular release that requires an optimum postsecretory environment, including hydration and pH. We hypothesized that this unpacking process is compromised in the CF lung due to abnormal transepithelial fluid transport that reduces airway surface hydration and alters ionic composition. Using human tracheobronchial epithelial cells derived from non-CF and CF donors and mucus samples from human subjects and domestic pigs, we investigated the process of postsecretory mucin unfolding/maturation, how these processes are defective in CF airways, and the probable mechanism underlying defective unfolding. First, we found that mucins released into a normal lung environment transform from a compact granular form to a linear form. Second, we demonstrated that this maturation process is defective in the CF airway environment. Finally, we demonstrated that independent of HCO3 and pH levels, airway surface dehydration was the major determinant of this abnormal unfolding process. This defective unfolding/maturation process after granular release suggests that the CF extracellular environment is ion/water depleted and likely contributes to abnormal mucus properties in CF airways prior to infection and inflammation.

Authors

Lubna H. Abdullah, Jessica R. Evans, T. Tiffany Wang, Amina A. Ford, Alexander M. Makhov, Kristine Nguyen, Raymond D. Coakley, Jack D. Griffith, C. William Davis, Stephen T. Ballard, Mehmet Kesimer

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Figure 2

Distribution of the molecular forms of salivary MUC5B from non-CF and CF subjects.

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Distribution of the molecular forms of salivary MUC5B from non-CF and CF...
(A) Approximately 70% of the secreted MUC5B population in non-CF saliva was recovered in a linear form in the low-density side of the gradient (fractions 3–6), while 25% of the MUC5B was recovered in the middensity region (fractions 7–10) in a semicompact/semilinear form. Less than 10% of the MUC5B was recovered in the bottom of the gradient in a compact form. In contrast, the MUC5B profile of saliva from CF subjects displayed a different profile, with 40% of the MUC5B population recovered in a linear form, while 40% of the MUC5B was found in semicompact/semilinear and compact forms. Approximately 20% of MUC5B from CF saliva was recovered in the bottom region in a compact form (*P = 0.01). (B) The distribution of the linear and compact forms from normal and CF saliva samples is displayed as a scatter plot (*P = 0.012). Mean and standard deviation values are indicated by major and minor horizontal bars respectively. Unpaired, 2-tailed t test was used to determine statistical significance.