Abstract
Adenocarcinoma (AdC) is the most common lung cancer subtype and is often associated with pleural effusion (PE). Its poor prognosis is attributable to diagnostic delay and lack of effective treatments and there is a pressing need in discovering new biomarkers for early diagnosis or targeted therapies. To date, little is known about lung AdC proteome. We investigated protein expression of lung AdC in PE using the isobaric Tags for Relative and Absolute Quantification (iTRAQ) approach to identify possible novel diagnostic/prognostic biomarkers. This provided the identification of 109 of lung AdC-related proteins. We further analyzed lumican, one of the overexpressed proteins, in 88 resected lung AdCs and in 23 malignant PE cell-blocks (13 lung AdCs and 10 non-lung cancers) using immunohistochemistry. In AdC surgical samples, lumican expression was low in cancer cells, whereas it was strong and diffuse in the stroma surrounding the tumor. However, lumican expression was not associated with tumor grade, stage, and vascular/pleural invasion. None of the lung cancer cell-blocks showed lumican immunoreaction, whereas those of all the other tumors were strongly positive. Finally, immunoblotting analysis showed lumican expression in both cell lysate and conditioned medium of a fibroblast culture but not in those of A549 lung cancer cell line. PE is a valid source of information for proteomic analysis without many of the restrictions of plasma. The high lumican levels characterizing AdC PEs are probably due to its release by the fibroblasts surrounding the tumor. Despite the role of lumican in lung AdC is still elusive, it could be of diagnostic value.
Highlights
Lung cancer is the leading tumor worldwide for incidence and mortality and is classified according to histological type into two broad classes: the small-cell lung carcinoma and the more common non-small-cell lung carcinoma, further divided in adenocarcinoma (AdC), squamousPLOS ONE | DOI:10.1371/journal.pone.0126458 May 11, 2015Lung Adenocarcinoma Proteomics cell carcinoma, and large cell carcinoma [1,2]
The prolonged cancer cell growth in the closed pleural cavity concentrates the secreted proteins clearing many of technical challenges associated with the plasma proteome analysis; the emphasis is shifting from cancer cells to the non-cellular portion of pleural effusion (PE)
109 protein groups were identified in both AdC and non-neoplastic PE samples
Summary
Lung cancer is the leading tumor worldwide for incidence and mortality and is classified according to histological type into two broad classes: the small-cell lung carcinoma and the more common non-small-cell lung carcinoma, further divided in adenocarcinoma (AdC), squamousPLOS ONE | DOI:10.1371/journal.pone.0126458 May 11, 2015Lung Adenocarcinoma Proteomics cell carcinoma, and large cell carcinoma [1,2]. Proteomics provides an unbiased opportunity to discover new potential pathogenic mechanisms and therapeutic targets, as well as biomarkers of disease [3]. Such approaches are generally applied to a small cohort of patients to generate hypotheses that need to be validated in larger cohorts [4]. Plasma is one of the most common body fluids used for the identification and validation of novel biomarkers of disease. The prolonged cancer cell growth in the closed pleural cavity concentrates the secreted proteins clearing many of technical challenges associated with the plasma proteome analysis; the emphasis is shifting from cancer cells to the non-cellular portion of PE
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