Large-Scale Identification of Core-Fucosylated Glycopeptide Sites in Pancreatic Cancer Serum Using Mass Spectrometry

Tan, Zhijing; Yin, Haidi; Nie, Song; Lin, Zhenxin; Zhu, Jianhui; Ruffin, Mack T.; Anderson, Michelle A.; Simeone, Diane M.; Lubman, David M.

doi:10.1021/acs.jproteome.5b00068

Cited by 69 publications

(96 citation statements)

References 41 publications

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“…For CF level quantification, there are two methods: one is label-free relative quantification 11,18 and the other one is absolute quantification with iTRAQ labeling. 10 iTRAQ labeling was used to quantify the CF peptides in this work.…”

Section: Resultsmentioning

confidence: 99%

Mass-Selected Site-Specific Core-Fucosylation of Serum Proteins in Hepatocellular Carcinoma

Yin

Tan

et al. 2015

J. Proteome Res.

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A mass spectrometry-based methodology has been developed to screen for changes in site-specific core-fucosylation (CF) of serum proteins in early stage HCC with different etiologies. The methods involve depletion of high-abundance proteins, trypsin digestion of medium-to-low-abundance proteins into peptides, iTRAQ labeling, and Lens culinaris Agglutinin (LCA) enrichment of CF peptides, followed by endoglycosidase F3 digestion before mass spectrometry analysis. 1300 CF peptides from 613 CF proteins were identified from patients sera, where 20 CF peptides were differentially expressed in alcohol (ALC)-related HCC samples compared with ALC-related cirrhosis samples and 26 CF peptides changed in hepatitis C virus (HCV)-related HCC samples compared with HCV-related cirrhosis samples. Among these, we found three CF peptides from fibronectin upregulated in ALC-related HCC samples compared with ALC-related cirrhosis samples with an AUC (area under the curve) value of 0.89 at site 1007 with a specificity of 85.7% at a sensitivity of 92.9% (generated with 10-fold cross-validation). When combined with the AFP index, the AUC value reached to 0.92 with a specificity of 92.9% at a sensitivity of 100%, significantly improved compared to that with AFP alone (LR test p < 0.001). In HCV-related samples, the CF level of cadherin-5 at site 61 showed the best AUC value of 0.75 but was not as promising as that of fibronectin site 1007 for ALC-related samples. The CF peptides of fibronectin may serve as potential biomarkers for early stage HCC screening in ALC-related cirrhosis patients.

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Section: Resultsmentioning

confidence: 99%

Mass-Selected Site-Specific Core-Fucosylation of Serum Proteins in Hepatocellular Carcinoma

Yin

Tan

et al. 2015

J. Proteome Res.

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“…There are two major strategies for Fuc glycoproteins analyses: (1) targeted Fuc proteins measurement by ELISA, western/lectin blot, or mass spectrometry (MS) 6,13,14,16,19,20 and (2) large-scale Fuc glycoproteomes profiling by MS analysis. 8,10,18,21–24 The second approach may be more comprehensive as it facilitates the understanding of underlying mechanisms associated with tumorigenesis and metastasis as well as the discovery of novel potential biomarkers for early clinical diagnosis. Currently, large-scale Fuc glyco-proteomics analyses often employ a divide-and-conquer approach that profiles glycans or deglycosylated peptides separately, utilizing enzymatic or chemical methods to selectively cleave either the glycan or glycopeptide.…”

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confidence: 99%

“…Currently, large-scale Fuc glyco-proteomics analyses often employ a divide-and-conquer approach that profiles glycans or deglycosylated peptides separately, utilizing enzymatic or chemical methods to selectively cleave either the glycan or glycopeptide. 8,10,18,20–25 However, a key drawback of this strategy is that information linking the site of glycosylation to its respective glycan structure is lost, and aspects such as glycan microheterogeneity at specific glycosites cannot be examined. 26 Therefore, strategies to profile the large-scale glycoproteomes, including Fuc, by analyzing intact glycopeptides directly are needed.…”

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confidence: 99%

Site-Specific Fucosylation Analysis Identifying Glycoproteins Associated with Aggressive Prostate Cancer Cell Lines Using Tandem Affinity Enrichments of Intact Glycopeptides Followed by Mass Spectrometry

Zhou

Yang

et al. 2017

Anal. Chem.

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Fucosylation (Fuc) of glycoproteins plays an important role in regulating protein function and has been associated with the development of several cancer types including prostate cancer (Pca). Therefore, the research of Fuc glycoproteins has attracted increasing attention recently in the analytical field. Herein, a strategy based on lectin affinity enrichments of intact glycopeptides followed by mass spectrometry has been established to evaluate the specificities of various Fuc-binding lectins for glycosite-specific Fuc analysis of nonaggressive (NAG) and aggressive (AG) Pca cell lines. The enrichment specificities of Fuc glycopeptides using lectins (LCA, PSA, AAL, LTL, UEA I, and AOL) and MAX extraction cartridges alone, or in tandem, were evaluated. Our results showed that the use of lectin enrichment significantly increased the ratio of fucosylated glycopeptides to total glycopeptides compared to MAX enrichment. Furthermore, tandem use of lectin followed by MAX increased the number of identifications of Fuc glycopeptides compared to using lectin enrichment alone. LCA, PSA, and AOL showed stronger binding capacity than AAL, LTL, and UEA I. Also, LCA and PSA bound specifically to core Fuc, whereas AOL, AAL, and UEA I showed binding to both core Fuc and branch Fuc. The optimized enrichment method with tandem enrichment of LCA followed by MAX (LCA-MAX) was then applied to examine the Fuc glycoproteomes in two NAG and two AG Pca cell lines. In total, 973 intact Fuc glycopeptides were identified and quantified from 252 Fuc proteins by using the tandem-mass-tags (TMT) labeling and nanoliquid chromatography–mass spectrometry (nanoLC–MS/MS) analysis. Further data analysis revealed that 51 Fuc glycopeptides were overexpressed more than 2-fold in AG cell lines compared to NAG cells. The analysis of protein core fucosylation has great potential for aiding our understanding of invasive activity of AG Pca and may lead to the development of diagnostic approaches for AG Pca.

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“…A method for screening and quantifying core fucosylated (CF) peptides in the depleted serum was recently developed [130]. The method uses lens culinaris agglutinin (LCA) to enrich for the core fucosylated peptides.…”

Section: Site-specific Glycan Markersmentioning

confidence: 99%

Glycans and glycoproteins as specific biomarkers for cancer

2016

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Protein glycosylation and other post-translational modifications are involved in potentially all aspects of human growth and development. Defective glycosylation has adverse effects on human physiological conditions and accompanies many chronic and infectious diseases. Altered glycosylation can occur at the onset and/or during tumor progression. Identifying these changes at early disease stages may aid in making decisions regarding treatments as early intervention can greatly enhance survival. This review highlights some of the efforts being made to identify N- and O-glycosylation profile shifts in cancer using mass spectrometry. The analysis of single or panels of potential glycoprotein cancer markers are covered. Other emerging technologies like global glycan release and site-specific glycosylation analysis and quantitation are also discussed.

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Large-Scale Identification of Core-Fucosylated Glycopeptide Sites in Pancreatic Cancer Serum Using Mass Spectrometry

Cited by 69 publications

References 41 publications

Mass-Selected Site-Specific Core-Fucosylation of Serum Proteins in Hepatocellular Carcinoma

Mass-Selected Site-Specific Core-Fucosylation of Serum Proteins in Hepatocellular Carcinoma

Site-Specific Fucosylation Analysis Identifying Glycoproteins Associated with Aggressive Prostate Cancer Cell Lines Using Tandem Affinity Enrichments of Intact Glycopeptides Followed by Mass Spectrometry

Glycans and glycoproteins as specific biomarkers for cancer

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