Protein profiling of human lung telocytes and microvascular endothelial cells using iTRAQ quantitative proteomics |
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| Authors: | Guoquan Yan Sanda Maria Cretoiu Laurentiu M. Popescu Hao Fang Xiangdong Wang |
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| Affiliation: | 1. Department of Chemistry, Institute of Biomedical Sciences, Fudan University, , Shanghai, China;2. Division of Cellular and Molecular Medicine, Carol Davila University of Medicine and Pharmacy, , Bucharest, Romania;3. Department of Ultrastructural Pathology, Victor Babe? National Institute of Pathology, , Bucharest, Romania;4. Division of Advanced Studies, Victor Babes National Institute of Pathology, , Bucharest, Romania;5. Department of Anesthesiology, Zhongshan Hospital;6. Jinshan Hospital Fudan University, , Shanghai, China;7. Fudan University Center for Clinical Bioinformatics, Zhongshan Hospital, Fudan University School of Medicine, , Shanghai, China |
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| Abstract: | Telocytes (TCs) are described as a particular type of cells of the interstitial space ( www.telocytes.com ). Their main characteristics are the very long telopodes with alternating podoms and podomers. Recently, we performed a comparative proteomic analysis of human lung TCs with fibroblasts, demonstrating that TCs are clearly a distinct cell type. Therefore, the present study aims to reinforce this idea by comparing lung TCs with endothelial cells (ECs), since TCs and ECs share immunopositivity for CD34. We applied isobaric tag for relative and absolute quantification (iTRAQ) combined with automated 2‐D nano‐ESI LC‐MS/MS to analyse proteins extracted from TCs and ECs in primary cell cultures. In total, 1609 proteins were identified in cell cultures. 98 proteins (the 5th day), and 82 proteins (10th day) were confidently quantified (screened by two‐sample t‐test, P < 0.05) as up‐ or down‐regulated (fold change >2). We found that in TCs there are 38 up‐regulated proteins at the 5th day and 26 up‐regulated proteins at the 10th day. Bioinformatics analysis using Panther revealed that the 38 proteins associated with TCs represented cellular functions such as intercellular communication (via vesicle mediated transport) and structure morphogenesis, being mainly cytoskeletal proteins and oxidoreductases. In addition, we found 60 up‐regulated proteins in ECs e.g.: cell surface glycoprotein MUC18 (15.54‐fold) and von Willebrand factor (5.74‐fold). The 26 up‐regulated proteins in TCs at 10th day, were also analysed and confirmed the same major cellular functions, while the 56 down‐regulated proteins confirmed again their specificity for ECs. In conclusion, we report here the first extensive comparison of proteins from TCs and ECs using a quantitative proteomics approach. Our data show that TCs are completely different from ECs. Protein expression profile showed that TCs play specific roles in intercellular communication and intercellular signalling. Moreover, they might inhibit the oxidative stress and cellular ageing and may have pro‐proliferative effects through the inhibition of apoptosis. The group of proteins identified in this study needs to be explored further for the role in pathogenesis of lung disease. |
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| Keywords: | telocytes microvascular endothelial cells proteomics iTRAQ LC‐MS/MS lung intercellular signalling |
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