Abstract
BACKGROUND: Higher blood eosinophil counts in COPD patients are associated with a greater response to inhaled corticosteroid (ICS) treatment, with type 2 (T2) inflammation being the target for ICS in COPD. Current smokers have reduced responses to ICS treatment. We have investigated whether current smoking modulates the levels of T2 mediators in the airways, thereby influencing ICS responsiveness. METHODS: Induced sputum samples were collected from 73 COPD patients, including 41 ex-smokers. Twenty-six patients donated a second sputum sample, approximately 6 months after the initial sample. Sputum cell gene expressions of IL13, CLCA1, CCL26 and CST1 were assessed by quantitative RT-PCR. Differential cell counts were performed. RESULTS: Expression levels of all four genes significantly correlated with sputum eosinophil percentages. IL13 and CCL26 gene expression levels were significantly lower in COPD current versus ex-smokers (IL13 p<0.0001; CCL26 p=0.005); there were no differences for CLCA1 or CST1. In repeat samples, IL13, CCL26 and CST1 expression showed good or very good consistency, while CLCA1 levels were more variable. CONCLUSION: Sputum gene expression of IL13 and CCL26 is affected by the smoking status of COPD patients and have stable expression over time. These findings implicate IL-13 and CCL26 as key components of T2 inflammation in COPD but also suggest that current smoking skews the immune response away from a T2 profile.