Direct cancer tissue proteomics: a method to identify candidate cancer biomarkers from formalin-fixed paraffin-embedded archival tissues

Hwang, Sun-Il; Thumar, J.; Lundgren, Deborah H.; Karim, Rezaul; Mayya, Viveka; Wu, Linfeng; Eng, Jimmy K.; Wright, M.; Han, David K.

doi:10.1038/sj.onc.1209755

Cited by 126 publications

(129 citation statements)

References 49 publications

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“…In 2005, a report described the successful application of shotgun proteome analysis combined with trypsin-mediated 18 O labeling to FFPE tissues of cancerous prostate lesions and benign prostate hyperplasia, opening the door to comparative proteomic analyses of FFPE tissues (Hood et al 2005). In 2007, the absolute quantitation of abundance method coupled to LC-based multiple reaction monitoring was applied to achieve picogram-level quantitation of prostate-specific antigen (Hwang et al 2007). Later, in a proteomic analysis of squamous cell carcinoma of the head and neck (HNSCC), FFPE tissue sections of normal oral epithelium and well-, moderately, and poorly differentiated HNSCCs were microdissected and processed for nano-reversed-phase liquid chromatography followed by tandem MS; KRT4, KRT16, vimentin, and desmoplakin were chosen to be validated by IHC.…”

Section: Discussionmentioning

confidence: 99%

Quantitative Proteomic Analysis of Formalin-fixed and Paraffin-embedded Nasopharyngeal Carcinoma Using iTRAQ Labeling, Two-dimensional Liquid Chromatography, and Tandem Mass Spectrometry

Xiao

Chen

et al. 2010

J Histochem Cytochem.

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S U M M A R Y Formalin-fixed, paraffin-embedded (FFPE) tissue specimens represent a potentially valuable resource for protein biomarker investigations. In this study, proteins were extracted by a heat-induced antigen retrieval technique combined with a retrieval solution containing 2% SDS from FFPE tissues of normal nasopharyngeal epithelial tissues (NNET) and three histological types of nasopharyngeal carcinoma (NPC) with diverse differentiation degrees. Then two-dimensional liquid chromatography-tandem mass spectrometry coupled with isobaric tags for relative and absolute quantification (iTRAQ) labeling was employed to quantitatively identify the differentially expressed proteins among the types of NPC FFPE tissues. Our study resulted in the identification of 730 unique proteins, the distributions of subcellular localizations and molecular functions of which were similar to those of the proteomic database of human NPC and NNET that we had set up based on the frozen tissues. Additionally, the relative expression levels of cathepsin D, keratin8, SFN, and stathmin1 identified and quantified in this report were consistent with the immunohistochemistry results acquired in our previous study. In conclusion, we have developed an effective approach to identifying protein changes in FFPE NPC tissues utilizing iTRAQ technology in conjunction with an economical and easily accessible sample preparation method. (J Histochem Cytochem 58:517-527, 2010)

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Section: Discussionmentioning

confidence: 99%

Quantitative Proteomic Analysis of Formalin-fixed and Paraffin-embedded Nasopharyngeal Carcinoma Using iTRAQ Labeling, Two-dimensional Liquid Chromatography, and Tandem Mass Spectrometry

Xiao

Chen

et al. 2010

J Histochem Cytochem.

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“…However, to overcome this heterogeneity a new methodology, termed direct tissue proteomics [20], which allows protein identification directly from formalin fixed paraffin-embebed tissue samples, has been applied to study the proteome of human coronary arteries and atherosclerotic plaques. The analysis of 35 human coronary atherosclerotic samples allowed to identify a total of 806 proteins [21].…”

Section: Differential Expression Of Proteins By Atherosclerotic Lesionsmentioning

confidence: 99%

Vascular proteomics

Vivanco

Mas

Dardé

et al. 2007

Proteomics Clinical Apps

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The characterization of patients with acute coronary syndromes (ACS) at the molecular and cellular levels provides a novel vision for understanding the pathological and clinical expression of the disease. Recent advances in proteomic technologies permit the evaluation of systematic changes in protein expression in many biological systems and have been extensively applied to cardiovascular diseases (CVD). The cardiovascular system is in permanent intimate contact with blood, making blood-based biomarker discovery a particularly worthwhile approach. Thus, proteomics can potentially yield novel biomarkers reflecting CVD, establish earlier detection strategies, and monitor response to therapy. Here we review the different proteomic strategies used in the study of atherosclerosis and the novel proteins differentially expressed and secreted by atherosclerotic lesions which constitute novel potential biomarkers (HSP-27, Cathepsin D). Special attention is paid to MS-Imaging of atheroma plaque and the generation, for the first time, of 2-D images of lipids, showing the distribution of these molecules in the different areas of the atherosclerotic lesions. In addition new potential biomarkers have been identified in plasma (amyloid A1a, transtherytin), circulating cells (protein profile in monocytes from ACS patients) and individual cells constituents of atheroma plaques (endothelial, VSMC, macrophages) which provide novel insights into vascular pathophysiology.

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“…However, contrary to the classical workflow, tissue section chemical treatment involved a first step of scrapping each FFPE tissue spot with a razor blade from the glass slide. The tissues were then transferred into a tube and processed with RIPA buffer and finally submitted to boiling as an AR step (Hwang et al, 2007). Afterward, several teams proved that it was possible to perform the AR directly on tissue sections.…”

Section: Figmentioning

confidence: 99%

“…Chaotropic agents can also be used for proteins retrieval from FFPE tissues (Guo et al, 2007). RIPA buffers were used with different amounts of NaH 2 PO 4 , NaHPO 4 , NaCl, Triton, fluoride, sodium cholate, sodium azide, and ethylenediamine tetraacetic acid (EDTA) on colorectal carcinoma (Ikeda et al, 1998), lymphoma (Crockett et al, 2005), and prostate cancer specimens (Hwang et al, 2007). Organic solvents can also be employed at different concentrations as solubilizing agents such as 30% acetonitrile, which was applied on pancreatic (Pan et al, 2011) and colon cancer tissues (Kakimoto et al, 2012).…”

Section: Optimal Tissue Solubilization Towards Protein Extractionmentioning

confidence: 99%

Tissue Proteomics for the Next Decade? Towards a Molecular Dimension in Histology

Longuespée

Fléron

Pottier

et al. 2014

OMICS: A Journal of Integrative Biology

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Direct cancer tissue proteomics: a method to identify candidate cancer biomarkers from formalin-fixed paraffin-embedded archival tissues

Cited by 126 publications

References 49 publications

Quantitative Proteomic Analysis of Formalin-fixed and Paraffin-embedded Nasopharyngeal Carcinoma Using iTRAQ Labeling, Two-dimensional Liquid Chromatography, and Tandem Mass Spectrometry

Quantitative Proteomic Analysis of Formalin-fixed and Paraffin-embedded Nasopharyngeal Carcinoma Using iTRAQ Labeling, Two-dimensional Liquid Chromatography, and Tandem Mass Spectrometry

Vascular proteomics

Tissue Proteomics for the Next Decade? Towards a Molecular Dimension in Histology

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