Title: Nominal carbonic anhydrase activity minimizes airway-surface liquid pH changes during breathing.

Authors: Thornell, Ian M; Li, Xiaopeng; Tang, Xiao Xiao; Brommel, Christian M; Karp, Philip H; Welsh, Michael J; Zabner, Joseph

Published In Physiol Rep, (2018 01)

Abstract: The airway-surface liquid pH (pHASL ) is slightly acidic relative to the plasma and becomes more acidic in airway diseases, leading to impaired host defense. CO2 in the large airways decreases during inspiration (0.04% CO2 ) and increases during expiration (5% CO2 ). Thus, we hypothesized that pHASL would fluctuate during the respiratory cycle. We measured pHASL on cultures of airway epithelia while changing apical CO2 concentrations. Changing apical CO2 produced only very slow pHASL changes, occurring in minutes, inconsistent with respiratory phases that occur in a few seconds. We hypothesized that pH changes were slow because airway-surface liquid has little carbonic anhydrase activity. To test this hypothesis, we applied the carbonic anhydrase inhibitor acetazolamide and found minimal effects on CO2 -induced pHASL changes. In contrast, adding carbonic anhydrase significantly increased the rate of change in pHASL . Using pH-dependent rates obtained from these experiments, we modeled the pHASL during respiration to further understand how pH changes with physiologic and pathophysiologic respiratory cycles. Modeled pHASL oscillations were small and affected by the respiration rate, but not the inspiratory:expiratory ratio. Modeled equilibrium pHASL was affected by the inspiratory:expiratory ratio, but not the respiration rate. The airway epithelium is the only tissue that is exposed to large and rapid CO2 fluctuations. We speculate that the airways may have evolved minimal carbonic anhydrase activity to mitigate large changes in the pHASL during breathing that could potentially affect pH-sensitive components of ASL.

PubMed ID: 29380953

MeSH Terms: No MeSH terms associated with this publication