Chronic β2AR stimulation limits CFTR activation in human airway epithelia
John J. Brewington, … , L. Jason Lu, John P. Clancy
John J. Brewington, … , L. Jason Lu, John P. Clancy
Published February 22, 2018
Citation Information: JCI Insight. 2018;3(4):e93029. https://doi.org/10.1172/jci.insight.93029.
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Research Article Cell biology Pulmonology

Chronic β2AR stimulation limits CFTR activation in human airway epithelia

Abstract

Traditional pulmonary therapies for cystic fibrosis (CF) target the downstream effects of CF transmembrane conductance regulator (CFTR) dysfunction (the cause of CF). Use of one such therapy, β-adrenergic bronchodilators (such as albuterol), is nearly universal for airway clearance. Conversely, novel modulator therapies restore function to select mutant CFTR proteins, offering a disease-modifying treatment. Recent trials of modulators targeting F508del-CFTR, the most common CFTR mutation, suggest that chronic β-agonist use may undermine clinical modulator benefits. We therefore sought to understand the impact of chronic or excess β-agonist exposure on CFTR activation in human airway epithelium. The present studies demonstrate a greater than 60% reduction in both wild-type and modulator-corrected F508del-CFTR activation following chronic exposure to short- and long-acting β-agonists. This reduction was due to reduced cellular generation of cAMP downstream of the β-2 adrenergic receptor–G protein complex. Our results point towards a posttranscriptional reduction in adenylyl cyclase function as the mechanism of impaired CFTR activation produced by prolonged β-agonist exposure. β-Agonist–induced CFTR dysfunction was sufficient to abrogate VX809/VX770 modulation of F508del-CFTR in vitro. Understanding the clinical relevance of our observations is critical for CF patients using these drugs, and for investigators to inform future CFTR modulator drug trials.

Authors

John J. Brewington, Jessica Backstrom, Amanda Feldman, Elizabeth L. Kramer, Jessica D. Moncivaiz, Alicia J. Ostmann, Xiaoting Zhu, L. Jason Lu, John P. Clancy

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Figure 3

Continuous exposure to albuterol reduces stimulated CFTR activity in a fashion similar to continuous or intermittent dosing with formoterol.

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Continuous exposure to albuterol reduces stimulated CFTR activity in a f...
wtCFTR+ and VX809-corrected F508del-CFTR+ CFBE41o- cells were exposed to either continuous or intermittent (1 hour, twice daily) albuterol (10 μM) or the long-acting β2AR-agonist formoterol (LABA; 1 μM) for 72 hours. Cells were mounted in Ussing chambers and CFTR function was assessed under voltage clamp conditions. (A) Representative short-circuit current (Isc) tracings in wtCFTR+ CFBE41o- cells exposed for 72 hours to either continuous (C) or intermittent (I) albuterol or formoterol; aggregate data are presented in B (n = 4 inserts/condition; circles represent total CFTR activity [cAMP + genistein], diamonds represent inhibited CFTR currents [Inh172]). (C) Representative Isc tracings in VX809-treated F508del-CFTR+ CFBE41o- cells exposed for 72 hours to either continuous (C) or intermittent (I) albuterol or formoterol; aggregate data are presented in D (n = 4 inserts/condition). All data were normalized to the control or VX809 (no albuterol pretreatment) condition. Stimulation protocol was as follows: amiloride (100 μM, not shown), cAMP (10 μM forskolin/100 μM IBMX; dark gray bars), CFTR potentiator (50 μM genistein for wtCFTR+, 1 μM VX770 for F508del-CFTR+ cells; light gray bars), and CFTR inhibition (10 μM Inh172; white bars). All experiments are representative of studies repeated in duplicate or triplicate with similar results. Data presented represent the mean ± SEM. *P < 0.05; **P < 0.01; ****P < 0.0005; NS, nonsignificant by 2-way ANOVA with Tukey’s multiple comparisons test.