Acidic pH increases airway surface liquid viscosity in cystic fibrosis
Xiao Xiao Tang, … , David A. Stoltz, Michael J. Welsh
Xiao Xiao Tang, … , David A. Stoltz, Michael J. Welsh
Published January 25, 2016
Citation Information: J Clin Invest. 2016;126(3):879-891. https://doi.org/10.1172/JCI83922.
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Research Article Pulmonology

Acidic pH increases airway surface liquid viscosity in cystic fibrosis

Abstract

Cystic fibrosis (CF) disrupts respiratory host defenses, allowing bacterial infection, inflammation, and mucus accumulation to progressively destroy the lungs. Our previous studies revealed that mucus with abnormal behavior impaired mucociliary transport in newborn CF piglets prior to the onset of secondary manifestations. To further investigate mucus abnormalities, here we studied airway surface liquid (ASL) collected from newborn piglets and ASL on cultured airway epithelia. Fluorescence recovery after photobleaching revealed that the viscosity of CF ASL was increased relative to that of non-CF ASL. CF ASL had a reduced pH, which was necessary and sufficient for genotype-dependent viscosity differences. The increased viscosity of CF ASL was not explained by pH-independent changes in HCO3 concentration, altered glycosylation, additional pH-induced disulfide bond formation, increased percentage of nonvolatile material, or increased sulfation. Treating acidic ASL with hypertonic saline or heparin largely reversed the increased viscosity, suggesting that acidic pH influences mucin electrostatic interactions. These findings link loss of cystic fibrosis transmembrane conductance regulator–dependent alkalinization to abnormal CF ASL. In addition, we found that increasing Ca2+ concentrations elevated ASL viscosity, in part, independently of pH. The results suggest that increasing pH, reducing Ca2+ concentration, and/or altering electrostatic interactions in ASL might benefit early CF.

Authors

Xiao Xiao Tang, Lynda S. Ostedgaard, Mark J. Hoegger, Thomas O. Moninger, Philip H. Karp, James D. McMenimen, Biswa Choudhury, Ajit Varki, David A. Stoltz, Michael J. Welsh

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Figure 6

An acidic pH does not increase ASL viscosity by inducing disulfide bond formation.

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An acidic pH does not increase ASL viscosity by inducing disulfide bond ...
(A) Effect of tris(2-carboxyethyl)phosphine (TCEP; 10 mM, 3 μl in PBS for 1 hour) on τASLsaline of cultured non-CF and CF airway epithelia. n = 6 epithelia per condition, each from a different pig. (B) Effect of tris(2-carboxyethyl)phosphine on τASLsaline of cultured non-CF airway epithelia exposed to 5% or 15% CO2. n = 5 epithelia per condition, each from a different pig. (C) Effect of IAA (25 mM, 3 μl in PBS for 15 minutes) on τASLsaline of cultured non-CF airway epithelia exposed to 5% or 15% CO2 (see also Supplemental Figure 6A for ASL pH.). n = 6 epithelia per condition, each from a different pig. (D) Effect of 25 mM IAA on the τASLsaline response to an oxidizing environment (95% O2 for 15 minutes) (see also Supplemental Figure 6B for ASL pH). n = 6–7 epithelia per condition, each from a different pig. The dashed horizontal lines indicate the viscosity of saline. *P < 0.05 by unpaired Student’s t test. Mean ± SEM.