| Literature DB >> 26306861 |
Bjoern Titz1, Alain Sewer2, Thomas Schneider2, Ashraf Elamin2, Florian Martin2, Sophie Dijon2, Karsta Luettich2, Emmanuel Guedj2, Gregory Vuillaume2, Nikolai V Ivanov2, Michael J Peck2, Nveed I Chaudhary2, Julia Hoeng2, Manuel C Peitsch2.
Abstract
Chronic obstructive pulmonary disease (COPD) is one of the most prevalent lung diseases. Cigarette smoking is the main risk factor for COPD. In this parallel-group clinical study we investigated to what extent the transitions in a chronic-exposure-to-disease model are reflected in the proteome and cellular transcriptome of induced sputum samples. We selected 60 age- and gender-matched individuals for each of the four study groups: current asymptomatic smokers, smokers with early stage COPD, former smokers, and never smokers. The cell-free sputum supernatant was analyzed by quantitative proteomics and the cellular mRNA fraction by gene expression profiling. The sputum proteome of current smokers clearly reflected the common physiological responses to smoke exposure, including alterations in mucin/trefoil proteins and a prominent xenobiotic/oxidative stress response. The latter response also was observed in the transcriptome, which additionally demonstrated an immune-cell polarization change. The former smoker group showed nearly complete attenuation of these biological effects. Thirteen differentially abundant proteins between the COPD and the asymptomatic smoker group were identified including TIMP1, APOA1, C6orf58, and BPIFB1 (LPLUNC1). In summary, our study demonstrates that sputum profiling can capture the complex and reversible physiological response to cigarette smoke exposure, which appears to be only slightly modulated in early-stage COPD.Entities:
Keywords: COPD; Quantitative proteomics; Smoking; Sputum; Systems toxicology
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Year: 2015 PMID: 26306861 DOI: 10.1016/j.jprot.2015.08.009
Source DB: PubMed Journal: J Proteomics ISSN: 1874-3919 Impact factor: 4.044