Substance P stimulates human airway submucosal gland secretion mainly via a CFTR-dependent process
Jae Young Choi, … , David Weill, Jeffrey J. Wine
Jae Young Choi, … , David Weill, Jeffrey J. Wine
Published April 20, 2009
Citation Information: J Clin Invest. 2009;119(5):1189-1200. https://doi.org/10.1172/JCI37284.
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Research Article Pulmonology

Substance P stimulates human airway submucosal gland secretion mainly via a CFTR-dependent process

Abstract

Chronic bacterial airway infections are the major cause of mortality in cystic fibrosis (CF). Normal airway defenses include reflex stimulation of submucosal gland mucus secretion by sensory neurons that release substance P (SubP). CFTR is an anion channel involved in fluid secretion and mutated in CF; the role of CFTR in secretions stimulated by SubP is unknown. We used optical methods to measure SubP-mediated secretion from human submucosal glands in lung transplant tissue. Glands from control but not CF subjects responded to mucosal chili oil. Similarly, serosal SubP stimulated secretion in more than 60% of control glands but only 4% of CF glands. Secretion triggered by SubP was synergistic with vasoactive intestinal peptide and/or forskolin but not with carbachol; synergy was absent in CF glands. Pig glands demonstrated a nearly 10-fold greater response to SubP. In 10 of 11 control glands isolated by fine dissection, SubP caused cell volume loss, lumen expansion, and mucus flow, but in 3 of 4 CF glands, it induced lumen narrowing. Thus, in CF, the reduced ability of mucosal irritants to stimulate airway gland secretion via SubP may be another factor that predisposes the airways to infections.

Authors

Jae Young Choi, Monal Khansaheb, Nam Soo Joo, Mauri E. Krouse, Robert C. Robbins, David Weill, Jeffrey J. Wine

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Figure 2

Serosal application of SubP-stimulated secretion from HN and DC but not CF airway glands.

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Serosal application of SubP-stimulated secretion from HN and DC but not ...
(A and B) Plots of secreted mucus volume over time for individual glands from 1 DC and 1 CF subject after stimulation are shown (each line represents a single gland). Right panels show part of the fields at end of 20 minutes of basal, SubP, and carbachol (carb) stimulation, respectively. Scale bar: 0.5 mm. (C) SubP-stimulated secretion in a larger proportion of glands in HN or DC versus CF subjects. Each bar shows the mean percentage of viable glands that responded to SubP in HN, DC, and CF subjects. The total number of viable glands was defined as the number responding to 5 minutes of 10 μM carbachol at the end of the experiment. Error bars show SEM. CF response to SubP was significantly less than that of either HN or DC; *P < 0.05.