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dc.contributor.authorSteiling, Katrinaen_US
dc.contributor.authorKadar, Aran Y.en_US
dc.contributor.authorBergerat, Agnesen_US
dc.contributor.authorFlanigon, Jamesen_US
dc.contributor.authorSridhar, Sriramen_US
dc.contributor.authorShah, Vishalen_US
dc.contributor.authorAhmad, Q. Rushdyen_US
dc.contributor.authorBrody, Jerome S.en_US
dc.contributor.authorLenburg, Marc E.en_US
dc.contributor.authorSteffen, Martinen_US
dc.contributor.authorSpira, Avrumen_US
dc.date.accessioned2012-01-11T21:11:32Z
dc.date.available2012-01-11T21:11:32Z
dc.date.issued2009-4-9
dc.identifier.citationSteiling, Katrina, Aran Y. Kadar, Agnes Bergerat, James Flanigon, Sriram Sridhar, Vishal Shah, Q. Rushdy Ahmad, Jerome S. Brody, Marc E. Lenburg, Martin Steffen, Avrum Spira. "Comparison of Proteomic and Transcriptomic Profiles in the Bronchial Airway Epithelium of Current and Never Smokers" PLoS ONE 4(4): e5043. (2009)
dc.identifier.issn1932-6203
dc.identifier.urihttps://hdl.handle.net/2144/3213
dc.description.abstractBACKGROUND. Although prior studies have demonstrated a smoking-induced field of molecular injury throughout the lung and airway, the impact of smoking on the airway epithelial proteome and its relationship to smoking-related changes in the airway transcriptome are unclear. METHODOLOGY/PRINCIPAL FINDINGS. Airway epithelial cells were obtained from never (n=5) and current (n=5) smokers by brushing the mainstem bronchus. Proteins were separated by one dimensional polyacrylamide gel electrophoresis (1D-PAGE). After in-gel digestion, tryptic peptides were processed via liquid chromatography/ tandem mass spectrometry (LC-MS/MS) and proteins identified. RNA from the same samples was hybridized to HG-U133A microarrays. Protein detection was compared to RNA expression in the current study and a previously published airway dataset. The functional properties of many of the 197 proteins detected in a majority of never smokers were similar to those observed in the never smoker airway transcriptome. LC-MS/MS identified 23 proteins that differed between never and current smokers. Western blotting confirmed the smoking-related changes of PLUNC, P4HB1, and uteroglobin protein levels. Many of the proteins differentially detected between never and current smokers were also altered at the level of gene expression in this cohort and the prior airway transcriptome study. There was a strong association between protein detection and expression of its corresponding transcript within the same sample, with 86% of the proteins detected by LC-MS/MS having a detectable corresponding probeset by microarray in the same sample. Forty-one proteins identified by LC-MS/MS lacked detectable expression of a corresponding transcript and were detected in =5% of airway samples from a previously published dataset. CONCLUSIONS/SIGNIFICANCE. 1D-PAGE coupled with LC-MS/MS effectively profiled the airway epithelium proteome and identified proteins expressed at different levels as a result of cigarette smoke exposure. While there was a strong correlation between protein and transcript detection within the same sample, we also identified proteins whose corresponding transcripts were not detected by microarray. This noninvasive approach to proteomic profiling of airway epithelium may provide additional insights into the field of injury induced by tobacco exposure.en_US
dc.description.sponsorshipDoris Duke Charitable Foundation; National Institute of Health/National Cancer Institute (R01CA124640); National Institute of Health/National Institute of Environmental Health Sciences (U01ES016035); ATS Fellow Career Development Awarden_US
dc.language.isoen
dc.publisherPublic Libary of Scienceen_US
dc.titleComparison of Proteomic and Transcriptomic Profiles in the Bronchial Airway Epithelium of Current and Never Smokersen_US
dc.typeArticleen_US
dc.identifier.doi10.1371/journal.pone.0005043
dc.identifier.pmid19357784
dc.identifier.pmcid2664466


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