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  • Cigarette smoke induces systemic defects in cystic fibrosis transmembrane conductance regulator function.

Cigarette smoke induces systemic defects in cystic fibrosis transmembrane conductance regulator function.

American journal of respiratory and critical care medicine (2013-09-18)
S Vamsee Raju, Patricia L Jackson, Clifford A Courville, Carmel M McNicholas, Peter A Sloane, Gina Sabbatini, Sherry Tidwell, Li Ping Tang, Bo Liu, James A Fortenberry, Caleb W Jones, Jeremy A Boydston, J P Clancy, Larry E Bowen, Frank J Accurso, J Edwin Blalock, Mark T Dransfield, Steven M Rowe
ABSTRACT

Several extrapulmonary disorders have been linked to cigarette smoking. Smoking is reported to cause cystic fibrosis transmembrane conductance regulator (CFTR) dysfunction in the airway, and is also associated with pancreatitis, male infertility, and cachexia, features characteristic of cystic fibrosis and suggestive of an etiological role for CFTR. To study the effect of cigarette smoke on extrapulmonary CFTR function. Demographics, spirometry, exercise tolerance, symptom questionnaires, CFTR genetics, and sweat chloride analysis were obtained in smokers with and without chronic obstructive pulmonary disease (COPD). CFTR activity was measured by nasal potential difference in mice and by Ussing chamber electrophysiology in vitro. Serum acrolein levels were estimated with mass spectroscopy. Healthy smokers (29.45 ± 13.90 mEq), smokers with COPD (31.89 ± 13.9 mEq), and former smokers with COPD (25.07 ± 10.92 mEq) had elevated sweat chloride levels compared with normal control subjects (14.5 ± 7.77 mEq), indicating reduced CFTR activity in a nonrespiratory organ. Intestinal current measurements also demonstrated a 65% decrease in CFTR function in smokers compared with never smokers. CFTR activity was decreased by 68% in normal human bronchial epithelial cells exposed to plasma from smokers, suggesting that one or more circulating agents could confer CFTR dysfunction. Cigarette smoke-exposed mice had decreased CFTR activity in intestinal epithelium (84.3 and 45%, after 5 and 17 wk, respectively). Acrolein, a component of cigarette smoke, was higher in smokers, blocked CFTR by inhibiting channel gating, and was attenuated by antioxidant N-acetylcysteine, a known scavenger of acrolein. Smoking causes systemic CFTR dysfunction. Acrolein present in cigarette smoke mediates CFTR defects in extrapulmonary tissues in smokers.