Your search keyword '"glycoproteomics"' showing total 87 results

1. Inter-tissue glycan heterogeneity: site-specific glycoform analysis of mouse tissue N-glycoproteomes using MS1-based glycopeptide detection method assisted by lectin microarray: Inter-tissue glycan heterogeneity: site-specific glycoform analysis of mouse tissue N-glycoproteomes using MS1-based glycopeptide detection method assisted by lectin microarray: C. Nagai-Okatani et al

Author

Nagai-Okatani, Chiaki, Tomioka, Azusa, Tominaga, Daisuke, Sakaue, Hiroaki, Kuno, Atsushi, and Kaji, Hiroyuki

Subjects

*GLYCOPROTEINS, *MASS spectrometry, *GLYCOPEPTIDES, *DATA mapping, *GLYCANS

Abstract

To understand the biological and pathological functions of protein glycosylation, the glycan heterogeneities for each glycosite in a single glycoprotein need to be elucidated depending on the type and status of cells. For this aim, a reliable strategy is needed to compare site-specific glycoforms of multiple glycoprotein samples in a comprehensive manner. To analyze this "inter-heterogeneity" of samples, we previously introduced an MS1-based glycopeptide detection method, "Glyco-RIDGE." Here, to elucidate inter-tissue glycan heterogeneities, this estimation method was applied to site-specific N-glycoforms of glycoproteins from six normal mouse tissues (liver, kidney, spleen, pancreas, stomach, and testis). The analyses of desialylated glycopeptides estimated 11,325 site-specific N-glycoforms with 239 glycan compositions at 1260 sites (1122 non-redundant core peptides) in 800 glycoproteins, revealing inter-tissue differences in macro-, micro-, and meta-glycan heterogeneities. To obtain detailed information on their glycan features and tissue distribution, the Glyco-RIDGE results were compared with laser microdissection-assisted lectin microarray (LMD-LMA)–based mouse tissue glycome mapping data deposited on LM-GlycomeAtlas, as well as MS-based mouse tissue glycome data deposited on GlycomeAtlas. This integrated approach supported the certainty of Glyco-RIDGE results and suggested that inter-tissue differences exist in glycan motifs, such as alpha-galactose and bisecting N-acetylglucosamine, in both whole tissue glycomes and specific glycoproteins, Anpep and Lamc1. In addition, the comparison with LMD-LMA-based tissue glycome mapping data suggested the possibility of estimating the tissue distribution of the assigned glycans and glycopeptides. Taken together, these findings demonstrate the utility of an integrated approach using MS assisted by LMA for large-scale analyses. [ABSTRACT FROM AUTHOR]

Published

2025

2. Quantitative proteome-wide O-glycoproteomics analysis with FragPipe: Quantitative proteome-wide O-glycoproteomics analysis with FragPipe: D. A. Polasky et al.

Author

Polasky, Daniel A., Lu, Lei, Yu, Fengchao, Li, Kai, Shortreed, Michael R., Smith, Lloyd M., and Nesvizhskii, Alexey I.

Subjects

*SOFTWARE localization, *AMINO acid sequence, *SOFTWARE development tools, *PEPTIDES, *GLYCANS

Abstract

Identification of O-glycopeptides from tandem mass spectrometry data is complicated by the near complete dissociation of O-glycans from the peptide during collisional activation and by the combinatorial explosion of possible glycoforms when glycans are retained intact in electron-based activation. The recent O-Pair search method provides an elegant solution to these problems, using a collisional activation scan to identify the peptide sequence and total glycan mass, and a follow-up electron-based activation scan to localize the glycosite(s) using a graph-based algorithm in a reduced search space. Our previous O-glycoproteomics methods with MSFragger-Glyco allowed for extremely fast and sensitive identification of O-glycopeptides from collisional activation data but had limited support for site localization of glycans and quantification of glycopeptides. Here, we report an improved pipeline for O-glycoproteomics analysis that provides proteome-wide, site-specific, quantitative results by incorporating the O-Pair method as a module within FragPipe. In addition to improved search speed and sensitivity, we add flexible options for oxonium ion-based filtering of glycans and support for a variety of MS acquisition methods and provide a comparison between all software tools currently capable of O-glycosite localization in proteome-wide searches. [ABSTRACT FROM AUTHOR]

Published

2025

3. IgG glycopeptide enrichment using hydrophilic interaction chromatography-based solid-phase extraction on an aminopropyl column.

Author

Molnarova, Katarina, Chobotova, Michaela, and Kozlik, Petr

Subjects

*SOLID phase extraction, *HYDROPHILIC interactions, *HYDROPHILIC interaction liquid chromatography, *FORMIC acid, *ACETONITRILE, *IMMUNOGLOBULIN G, *GLYCOPEPTIDES

Abstract

The sample preparation step is pivotal in glycoproteomic analysis. An effective approach in glycoprotein sample preparation involves enriching glycopeptides by solid-phase extraction (SPE) using polar stationary phases in hydrophilic interaction liquid chromatography (HILIC) mode. The aim of this work is to show how different experimental conditions influence the enrichment efficiency of glycopeptides from human immunoglobulin G (IgG) on an aminopropyl-modified SPE column. Different compositions of the elution solvent (acetonitrile, methanol, and isopropanol), along with varying concentrations of elution solvent acidifiers (formic and acetic acid), and different concentrations of acetonitrile for the conditioning and washing solvents (65%, 75%, and 85% acetonitrile) were tested to observe their effects on the glycopeptide enrichment process. Isopropanol proved less effective in enriching glycopeptides, while acetonitrile was the most efficient, with methanol in between. Higher formic acid concentrations in the elution solvent weakened the ionic interactions, particularly with sialylated glycopeptides. Substituting formic acid with acetic acid led to earlier elution of more glycopeptides. The acetonitrile concentration in conditioning and washing solutions played a key role; at 65% acetonitrile, glycopeptides were not retained on the SPE column and were detected in the flow-through fraction. Ultimately, it was proven that the enrichment method was applicable to human plasma samples, resulting in a significant decrease in the abundances of non-glycosylated peptides. To the best of our knowledge, this study represents the first systematic investigation into the impact of the mobile phase on glycopeptide enrichment using an aminopropyl-modified SPE column in HILIC mode. This study demonstrates the substantial impact of even minor variations in experimental conditions, which have not yet been considered in the literature, on SPE-HILIC glycopeptide enrichment. Consequently, meticulous optimization of these conditions is imperative to enhance the specificity and selectivity of glycoproteomic analysis, ensuring accurate and reliable quantification. [ABSTRACT FROM AUTHOR]

Published

2024

4. Integrative proteomics and n-glycoproteomics reveal the synergistic anti-tumor effects of aspirin- and gemcitabine-based chemotherapy on pancreatic cancer cells.

Author

Li, Xiaoyu, Kong, Ran, Hou, Wenhao, Cao, Junxia, Zhang, Li, Qian, Xiaohong, Zhao, Lijiao, and Ying, Wantao

Subjects

*ASPIRIN, *PANCREATIC cancer, *DRUG resistance in cancer cells, *CANCER chemotherapy, *CANCER cells, *ANTINEOPLASTIC agents

Abstract

Objective and design: Pancreatic cancer is a highly malignant tumor that is well known for its poor prognosis. Based on glycosylation, we performed integrated quantitative N-glycoproteomics to investigate the synergistic anti-tumor effects of aspirin and gemcitabine on pancreatic cancer cells and explore the potential molecular mechanisms of chemotherapy in pancreatic cancer. Methods and results: Two pancreatic cancer cell lines (PANC-1 and BxPC-3) were treated with gemcitabine, aspirin, and a combination (gemcitabine + aspirin). We found that the addition of aspirin enhanced the inhibitory effect of gemcitabine on the activity of PANC-1 and BxPC-3 cells. Quantitative N-glycoproteome, proteome, phosphorylation, and transcriptome data were obtained from integrated multi-omics analysis to evaluate the anti-tumor effects of aspirin and gemcitabine on pancreatic cancer cells. Mfuzz analysis of intact N-glycopeptide profiles revealed two consistent trends associated with the addition of aspirin, which showed a strong relationship between N-glycosylation and the synergistic effect of aspirin. Further analysis demonstrated that the dynamic regulation of sialylation and high-mannose glycoforms on ECM-related proteins (LAMP1, LAMP2, ITGA3, etc.) was a significant factor for the ability of aspirin to promote the anti-tumor activity of gemcitabine and the drug resistance of pancreatic cancer cells. Conclusions: In-depth analysis of N-glycosylation-related processes and pathways in pancreatic cancer cells can provide new insight for future studies regarding pancreatic cancer therapeutic targets and drug resistance mechanisms. [ABSTRACT FROM AUTHOR]

Published

2024

5. Mass spectrometry analysis of intact protein N-glycosylation signatures of cells and sera in pancreatic adenocarcinomas.

Author

Xu, Mingming, Liu, Zhaoliang, Hu, Wenhua, Han, Ying, Wu, Zhen, Chen, Sufeng, Xia, Peng, Du, Jing, Zhang, Xumin, Hao, Piliang, Xia, Jun, and Yang, Shuang

Abstract

Copyright of Journal of Zhejiang University: Science B is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

6. Analysis of complex proteoglycans using serial proteolysis and EThcD provides deep N- and O-glycoproteomic coverage.

Author

Downs, Margaret, Curran, Jillian, Zaia, Joseph, and Sethi, Manveen K.

Subjects

*PROTEOGLYCANS, *PROTEOLYSIS, *GLYCOPEPTIDES, *AMINO acid sequence, *CHONDROITIN sulfate proteoglycan, *TANDEM mass spectrometry, *PEPTIDES

Abstract

Proteoglycans are a small but diverse family of proteins that play a wide variety of roles at the cell surface and in the extracellular matrix. In addition to their glycosaminoglycan (GAG) chains, they are N- and O-glycosylated. All of these types of glycosylation are crucial to their function but present a considerable analytical challenge. We describe the combination of serial proteolysis followed by the application of higher-energy collisional dissociation (HCD) and electron transfer/higher-energy collisional dissociation (EThcD) to optimize protein sequence coverage and glycopeptide identification from proteoglycans. In many cases, the use of HCD alone allows the identification of more glycopeptides. However, the localization of glycoforms on multiply glycosylated peptides has remained elusive. We demonstrate the use of EThcD for the confident assignment of glycan compositions on multiply glycosylated peptides. Dense glycosylation on proteoglycans is key to their biological function; thus, developing tools to identify and quantify doubly glycosylated peptides is of interest. Additionally, glycoproteomics searches identify glycopeptides in otherwise poorly covered regions of proteoglycans. The development of these and other analytical tools may permit glycoproteomic similarity comparisons in biological samples. [ABSTRACT FROM AUTHOR]

Published

2023

7. Multidimensional separation and analysis of alpha-1-acid glycoprotein N-glycopeptides using high-field asymmetric waveform ion mobility spectrometry (FAIMS) and nano-liquid chromatography tandem mass spectrometry.

Author

Chandler, Kevin Brown, Marrero Roche, Daniel E., and Sackstein, Robert

Subjects

*ION mobility, *ION mobility spectroscopy, *TANDEM mass spectrometry, *GLYCOPROTEIN analysis, *CHROMATOGRAPHIC analysis, *MASS spectrometry, *GLYCOPEPTIDES, *GLYCOPROTEINS

Abstract

Bottom-up nLC-MS/MS-based glycoprotein mass spectrometry workflows rely on the generation of a mixture of non-glycosylated and glycosylated peptides via proteolysis of glycoproteins. Such methods are challenged by suppression of hydrophilic glycopeptide ions by more abundant, hydrophobic, and readily ionizable non-glycosylated peptides. Commercially available high-field asymmetric waveform ion mobility spectrometry (FAIMS) devices have recently been introduced and present a potential benefit for glycoproteomic workflows by enabling orthogonal separation of non-glycosylated peptides and glycopeptides following chromatographic separation, and prior to MS/MS analysis. However, knowledge is lacking regarding optimal FAIMS conditions for glycopeptide analyses. Here, we document optimal FAIMS compensation voltages for the transmission and analysis of human alpha-1-acid glycoprotein (AGP) tryptic N-glycopeptide ions. Further, we evaluate the effect of FAIMS on AGP glycopeptide assignment confidence by comparing the number of assigned glycopeptides at different confidence levels using a standard nLC-MS/MS method or an otherwise identical method employing FAIMS. Optimized methods will potentiate glycoproteomic analyses by increasing the number of unique glycopeptide identifications and the confidence of glycopeptide assignments. Data are available via ProteomeXchange with identifier PXD036667. Analysis of alpha-1-acid glycoprotein (AGP) tryptic digests via nLC-FAIMS-MS/MS (top) led to the establishment of ideal FAIMS voltages for the analysis of AGP N-glycopeptides (bottom), suggesting that FAIMS can improve the depth of glycoproteome characterization. Pairs of CV magnitudes are shown along the x-axis [ABSTRACT FROM AUTHOR]

Published

2023

8. Glycoproteomic analysis reveals the effects of bisecting GlcNAc in intrahepatic cholangiocarcinoma.

Author

Dan, Wei, Li, Cheng, Li, Jun, Li, Pengfei, Xin, Miaomiao, Chen, Zexuan, Dang, Liuyi, Yu, Zihao, Li, Jing, Shen, Jiechen, Hu, Liangshuo, and Sun, Shisheng

Abstract

Intrahepatic cholangiocarcinoma (ICC) is the second major subtype of primary liver cancer and has caused more and more attention with increasing incidence and mortality worldwide. Our previous study found that bisecting N-glycans are commonly increased in ICC, while the effects and potential functions of bisecting GlcNAc in ICC are still largely unclear. In this study, we further confirmed that the structures of bisecting GlcNAc were significantly up-regulated in ICC compared with paracancer tissues by glycoproteomic data and lectin histochemistry. The expression of its glycosyltransferase MGAT3 was also up-regulated in ICC tissues at both mRNA and protein levels, and expression of MGAT3 is negatively correlated with overall survival explored by bioinformatic analyses and published datasets from 255 patients. Next, the silencing of MGAT3 could inhibit the growth and invasion of ICC cells, and overexpressing of MGAT3 only promoted ICC cell invasion. Further glycoproteomic analysis showed that the commonly glycoproteins modified by bisecting GlcNAc after MGAT3-overexpression in two ICC cell lines were mainly involved in cell movement-related biological processes, such as cell adhesion, integrin-related and ECM-receptor interaction. This study sheds light on the potential effects of bisecting GlcNAc in ICC cells and suggests that MGAT3 might be used as a potential target in the therapy of ICC. [ABSTRACT FROM AUTHOR]

Published

2022

9. Complementary proteome and glycoproteome access revealed through comparative analysis of reversed phase and porous graphitic carbon chromatography.

Author

Delafield, Daniel G., Miles, Hannah N., Liu, Yuan, Ricke, William A., and Li, Lingjun

Subjects

*CHROMATOGRAPHIC analysis, *COMPARATIVE studies, *LIQUID chromatography, *CARBON, *HIGH temperatures, *CELL separation, *ISOMERS

Abstract

Continual developments in instrumental and analytical techniques have aided in establishing rigorous connections between protein glycosylation and human illness. These illnesses, such as various forms of cancer, are often associated with poor prognoses, prompting the need for more comprehensive characterization of the glycoproteome. While innovative instrumental and computational strategies have largely benefited glycoproteomic analyses, less attention is given to benefits gained through alternative, optimized chromatographic techniques. Porous graphitic carbon (PGC) chromatography has gained considerable interest in glycomics research due to its mobile phase flexibility, increased retention of polar analytes, and improved structural elucidation at higher temperatures. PGC has yet to be systematically compared against or in tandem with standard reversed phase liquid chromatography (RPLC) in high-throughput bottom-up glycoproteomic experiments, leaving the potential benefits unexplored. Performing comparative analysis of single and biphasic separation regimes at a range of column temperatures illustrates complementary advantages for each method. PGC separation is shown to selectively retain shorter, more hydrophilic glycopeptide species, imparting higher average charge, and exhibiting greater microheterogeneity coverage for identified glycosites. Additionally, we demonstrate that liquid-phase separation of glycopeptide isomers may be achieved through both single and biphasic PGC separations, providing a means towards facile, multidimensional glycopeptide characterization. Beyond this, we demonstrate how utilization of multiple separation regimes and column temperatures can aid in profiling the glycoproteome in tumorigenic and aggressive prostate cancer cells. RAW MS proteomic and glycoproteomic datasets have been deposited to the ProteomeXchange Consortium via the PRIDE partner repository with the dataset identifier PXD024196 (10.6019/PXD024196) and PXD024195, respectively. [ABSTRACT FROM AUTHOR]

Published

2022

10. Formylation: an undesirable modification on glycopeptides and glycans during storage in formic acid solution.

Author

Zhi, Yuan, Jia, Li, Shen, Jiechen, Li, Jun, Chen, Zexuan, Zhu, Bojing, Hao, Zhifang, Xu, Yintai, and Sun, Shisheng

Subjects

*FORMIC acid, *FORMYLATION, *GLYCANS, *ORGANIC acids, *ACID solutions, *GLYCOPEPTIDES, *HYDROXYL group

Abstract

In glycomic and glycoproteomic studies, solutions containing diluted organic acids such as formic acid (FA) have been widely used for dissolving intact glycopeptide and glycan samples prior to mass spectrometry analysis. Here, we show that an undesirable + 28 Da modification occurred in a time-dependent manner when the glycan and glycopeptide samples were stored in FA solution at − 20 °C. We confirmed that this unexpected modification was caused by formylation between the hydroxyl groups of glycans and FA with a relatively low reaction rate. As this incomplete modification affected the glycan and glycopeptide identification and quantification in glycomic and glycoproteomic studies, the storage at − 20 °C should be avoided once the glycan and glycopeptide samples have been dissolved in FA solution. [ABSTRACT FROM AUTHOR]

Published

2022

11. Truncation of the TPR domain of OGT alters substrate and glycosite selection.

Author

Ramirez, Daniel H., Yang, Bo, D'Souza, Alexandria K., Shen, Dacheng, and Woo, Christina M.

Subjects

*PROTEIN engineering, *PROTEIN models, *N-acetylglucosamine, *NUCLEOCYTOPLASMIC interactions, *GLYCOSYLATION

Abstract

O-GlcNAc transferase (OGT) is an essential enzyme that installs O-linked N-acetylglucosamine (O-GlcNAc) to thousands of protein substrates. OGT and its isoforms select from these substrates through the tetratricopeptide repeat (TPR) domain, yet the impact of truncations to the TPR domain on substrate and glycosite selection is unresolved. Here, we report the effects of iterative truncations to the TPR domain of OGT on substrate and glycosite selection with the model protein GFP-JunB and the surrounding O-GlcNAc proteome in U2OS cells. Iterative truncation of the TPR domain of OGT maintains glycosyltransferase activity but alters subcellular localization of OGT in cells. The glycoproteome and glycosites modified by four OGT TPR isoforms were examined on the whole proteome and a single target protein, GFP-JunB. We found the greatest changes in O-GlcNAc on proteins associated with mRNA splicing processes and that the first four TPRs of the canonical nucleocytoplasmic OGT had the broadest substrate scope. Subsequent glycosite analysis revealed that alteration to the last four TPRs corresponded to the greatest shift in the resulting O-GlcNAc consensus sequence. This dataset provides a foundation to analyze how perturbations to the TPR domain and expression of OGT isoforms affect the glycosylation of substrates, which will be critical for future efforts in protein engineering of OGT, the biology of OGT isoforms, and diseases associated with the TPR domain of OGT. [ABSTRACT FROM AUTHOR]

Published

2021

12. Data-independent acquisition mass spectrometry for site-specific glycoproteomics characterization of SARS-CoV-2 spike protein.

Author

Chang, Deborah, Klein, Joshua A., Nalehua, Mary Rachel, Hackett, William E., and Zaia, Joseph

Subjects

*SARS-CoV-2, *COVID-19 pandemic, *AMINO acid sequence, *VACCINE development, *CELL fusion, *MASS spectrometry, *GLYCOPROTEIN analysis, *COVID-19

Abstract

The spike protein of SARS-CoV-2, the virus responsible for the global pandemic of COVID-19, is an abundant, heavily glycosylated surface protein that plays a key role in receptor binding and host cell fusion, and is the focus of all current vaccine development efforts. Variants of concern are now circulating worldwide that exhibit mutations in the spike protein. Protein sequence and glycosylation variations of the spike may affect viral fitness, antigenicity, and immune evasion. Global surveillance of the virus currently involves genome sequencing, but tracking emerging variants should include quantitative measurement of changes in site-specific glycosylation as well. In this work, we used data-dependent acquisition (DDA) and data-independent acquisition (DIA) mass spectrometry to quantitatively characterize the five N-linked glycosylation sites of the glycoprotein standard alpha-1-acid glycoprotein (AGP), as well as the 22 sites of the SARS-CoV-2 spike protein. We found that DIA compared favorably to DDA in sensitivity, resulting in more assignments of low-abundance glycopeptides. However, the reproducibility across replicates of DIA-identified glycopeptides was lower than that of DDA, possibly due to the difficulty of reliably assigning low-abundance glycopeptides confidently. The differences in the data acquired between the two methods suggest that DIA outperforms DDA in terms of glycoprotein coverage but that overall performance is a balance of sensitivity, selectivity, and statistical confidence in glycoproteomics. We assert that these analytical and bioinformatics methods for assigning and quantifying glycoforms would benefit the process of tracking viral variants as well as for vaccine development. [ABSTRACT FROM AUTHOR]

Published

2021

13. Diet affects glycosylation of serum proteins in women at risk for cardiometabolic disease.

Author

Kim, Tyler, Xie, Yixuan, Li, Qiongyu, Artegoitia, Virginia M., Lebrilla, Carlito B., Keim, Nancy L., Adams, Sean H., and Krishnan, Sridevi

Subjects

*CARDIOVASCULAR diseases risk factors, *EVALUATION of medical care, *POLYSACCHARIDES, *BLOOD proteins, *HIGH performance liquid chromatography, *GLYCOSYLATION, *DIET, *INGESTION, *RANDOMIZED controlled trials, *PROTEOMICS, *METABOLIC syndrome, *GLYCOPROTEINS, *STATISTICAL correlation, *WOMEN'S health

Abstract

Background: Glycoproteomics deals with glycoproteins that are formed by post-translational modification when sugars (like fucose and sialic acid) are attached to protein. Glycosylation of proteins influences function, but whether glycosylation is altered by diet is unknown. Objective: To evaluate the effect of consuming a diet based on the Dietary Guidelines for Americans on circulating glycoproteins that have previously been associated with cardiometabolic diseases. Design: Forty-four women, with one or more metabolic syndrome characteristics, completed an 8-week randomized controlled feeding intervention (n = 22) consuming a diet based on the Dietary Guidelines for Americans (DGA 2010); the remaining consumed a 'typical American diet' (TAD, n = 22). Fasting serum samples were obtained at week0 (baseline) and week8 (post-intervention); 17 serum proteins were chosen for targeted analyses. Protein standards and serum samples were analyzed in a UHPLC-MS protocol to determine peptide concentration and their glycan (fucosylation or sialylation) profiles. Data at baseline were used in correlational analyses; change in proteins and glycans following intervention were used in non-parametric analyses. Results: At baseline, women with more metabolic syndrome characteristics had more fucosylation (total di-fucosylated proteins: p = 0.045) compared to women with a lesser number of metabolic syndrome characteristics. Dietary refined grain intake was associated with increased total fucosylation (ρ = − 0.530, p < 0.001) and reduced total sialylation (ρ = 0.311, p = 0.042). After the 8-week intervention, there was higher sialylation following the DGA diet (Total di-sialylated protein p = 0.018, poly-sialylated orosomucoid p = 0.012) compared to the TAD diet. Conclusions: Based on this study, glycosylation of proteins is likely affected by dietary patterns; higher sialylation was associated with a healthier diet pattern. Altered glycosylation is associated with several diseases, particularly cancer and type 2 diabetes, and this study raises the possibility that diet may influence disease state by altering glycosylation. Clinical trial registration: NCT02298725 at clinicaltrials.gov; https://clinicaltrials.gov/ct2/show/NCT02298725. [ABSTRACT FROM AUTHOR]

Published

2021

14. Tumor cells express pauci- and oligomannosidic N-glycans in glycoproteins recognized by the mannose receptor (CD206).

Author

Stavenhagen, Kathrin, Laan, Lisa C., Gao, Chao, Mehta, Akul Y., Heimburg-Molinaro, Jamie, Glickman, Jonathan N., van Die, Irma, and Cummings, Richard D.

Subjects

*MANNOSE, *GLYCOPROTEINS, *GLYCANS, *NATURAL immunity, *LUNG cancer, *LECTINS, *HOMEOSTASIS, *CANCER cells

Abstract

The macrophage mannose receptor (CD206, MR) is an endocytic lectin receptor which plays an important role in homeostasis and innate immunity, however, the endogenous glycan and glycoprotein ligands recognized by its C-type lectin domains (CTLD) have not been well studied. Here we used the murine MR CTLD4–7 coupled to the Fc-portion of human IgG (MR-Fc) to investigate the MR glycan and glycoprotein recognition. We probed 16 different cancer and control tissues using the MR-Fc, and observed cell- and tissue-specific binding with varying intensity. All cancer tissues and several control tissues exhibited MR-Fc ligands, intracellular and/or surface-located. We further confirmed the presence of ligands on the surface of cancer cells by flow cytometry. To characterize the fine specificity of the MR for glycans, we screened a panel of glycan microarrays. Remarkably, the results indicate that the CTLD4-7 of the MR is highly selective for specific types of pauci- and oligomannose N-glycans among hundreds of glycans tested. As lung cancer tissue and the lung cancer cell line A549 showed intense MR-Fc binding, we further investigated the MR glycoprotein ligands in those cells by immunoprecipitation and glycoproteomic analysis. All enriched glycoproteins, of which 42 were identified, contained pauci- or oligomannose N-glycans, confirming the microarray results. Our study demonstrates that the MR CTLD4-7 is highly selective for pauci- and oligomannosidic N-glycans, structures that are often elevated in tumor cells, and suggest a potential role for the MR in tumor biology. [ABSTRACT FROM AUTHOR]

Published

2021

15. Comparison of human IgG glycopeptides separation using mixed-mode hydrophilic interaction/ion-exchange liquid chromatography and reversed-phase mode.

Author

Molnarova, Katarina, Duris, Ales, Jecmen, Tomas, and Kozlik, Petr

Subjects

*HYDROPHILIC interaction liquid chromatography, *HYDROPHILIC interactions, *GLYCOPEPTIDES, *LIQUID chromatography, *IMMUNOGLOBULIN G, *AMINO acid sequence

Abstract

Glycoproteomics is a challenging branch of proteomics because of the micro- and macro-heterogeneity of protein glycosylation. Hydrophilic interaction liquid chromatography (HILIC) is an advantageous alternative to reversed-phase chromatography for intact glycopeptide separation prior to their identification by mass spectrometry. Nowadays, several HILIC columns differing in used chemistries are commercially available. However, there is a lack of comparative studies assessing their performance, and thus providing guidance for the selection of an adequate stationary phase for different glycoproteomics applications. Here, we compare three HILIC columns recently developed by Advanced Chromatography Technologies (ACE)— with unfunctionalized (HILIC-A), polyhydroxy functionalized (HILIC-N), and aminopropyl functionalized (HILIC-B) silica— with a C18 reversed-phase column in the separation of human immunoglobulin G glycopeptides. HILIC-A and HILIC-B exhibit mixed-mode separation combining hydrophilic and ion-exchange interactions for analyte retention. Expectably, reversed-phase mode successfully separated clusters of immunoglobulin G1 and immunoglobulin G2 glycopeptides, which differ in amino acid sequence, but was not able to adequately separate different glycoforms of the same peptide. All ACE HILIC columns showed higher separation power for different glycoforms, and we show that each column separates a different group of glycopeptides more effectively than the others. Moreover, HILIC-A and HILIC-N columns separated the isobaric A2G1F1 glycopeptides of immunoglobulin G, and thus showed the potential for the elucidation of the structure of isomeric glycoforms. Furthermore, the possible retention mechanism for the HILIC columns is discussed on the basis of the determined chromatographic parameters. [ABSTRACT FROM AUTHOR]

Published

2021

16. Mapping the O‐glycoproteome using site‐specific extraction of O‐linked glycopeptides (EXoO)

Author

Weiming Yang, Minghui Ao, Yingwei Hu, Qing Kay Li, and Hui Zhang

Subjects

glycoproteomics, glycosylation, O‐GalNAc, O‐linked, site‐specific, Biology (General), QH301-705.5, Medicine (General), R5-920

Abstract

Abstract Protein glycosylation is one of the most abundant post‐translational modifications. However, detailed analysis of O‐linked glycosylation, a major type of protein glycosylation, has been severely impeded by the scarcity of suitable methodologies. Here, a chemoenzymatic method is introduced for the site‐specific extraction of O‐linked glycopeptides (EXoO), which enabled the mapping of over 3,000 O‐linked glycosylation sites and definition of their glycans on over 1,000 proteins in human kidney tissues, T cells, and serum. This large‐scale localization of O‐linked glycosylation sites demonstrated that EXoO is an effective method for defining the site‐specific O‐linked glycoproteome in different types of sample. Detailed structural analysis of the sites identified revealed conserved motifs and topological orientations facing extracellular space, the cell surface, the lumen of the Golgi, and the endoplasmic reticulum (ER). EXoO was also able to reveal significant differences in the O‐linked glycoproteome of tumor and normal kidney tissues pointing to its broader use in clinical diagnostics and therapeutics.

Published

2018

17. Identification of potential glycoprotein biomarkers in oral squamous cell carcinoma using sweet strategies.

Author

Wong, Yin-Ling, Anand, Ramanathan, Yuen, Kar Mun, Mustafa, Wan Mahadzir Wan, Abraham, Mannil Thomas, Tay, Keng Kiong, Rahman, Zainal Ariff Abdul, and Chen, Yeng

Abstract

The prevalence of oral squamous cell carcinoma (OSCC) is high in South and Southeast Asia regions. Most OSCC patients are detected at advanced stages low 5-year survival rates. Aberrant expression of glycosylated proteins was found to be associated with malignant transformation and cancer progression. Hence, identification of cancer-associated glycoproteins could be used as potential biomarkers that are beneficial for diagnosis or clinical management of patients. This study aims to identify the differentially expressed glycoproteins using lectin-based glycoproteomics approaches. Serum samples of 40 patients with OSCC, 10 patients with oral potentially malignant disorder (OPMD), and 10 healthy individuals as control group were subjected to two-dimensional gel electrophoresis (2-DE) coupled with lectin Concanavalin A and Jacalin that specifically bind to N- and O-glycosylated proteins, respectively. Five differentially expressed N- and O-glycoproteins with various potential glycosylation sites were identified, namely N-glycosylated α1-antitrypsin (AAT), α2-HS-glycoprotein (AHSG), apolipoprotein A-I (APOA1), and haptoglobin (HP); as well as O-glycosylated AHSG and clusterin (CLU). Among them, AAT and APOA1 were further validated using enzyme-linked immunosorbent assay (ELISA) (n = 120). It was found that AAT and APOA1 are significantly upregulated in OSCC and these glycoproteins are independent risk factors of OSCC. The clinical utility of AAT and APOA1 as potential biomarkers of OSCC is needed for further evaluation. [ABSTRACT FROM AUTHOR]

Published

2021

18. Identification of novel glycosylation events on human serum-derived factor IX.

Author

Pegg, Cassandra L., Zacchi, Lucia F., Recinos, Dinora Roche, Howard, Christopher B., and Schulz, Benjamin L.

Abstract

Human Factor IX is a highly post-translationally modified protein that is an important clotting factor in the blood coagulation cascade. Functional deficiencies in Factor IX result in the bleeding disorder haemophilia B, which is treated with plasma-derived or recombinant Factor IX concentrates. Here, we investigated the post-translational modifications of human serum-derived Factor IX and report previously undescribed O-linked monosaccharide compositions at serine 141 and a novel site of glycosylation. At serine 141 we observed two monosaccharide compositions, with HexNAc1Hex1NeuAc2 dominant and a low level of HexNAc1Hex1NeuAc1. This O-linked site lies N-terminal to the first cleavage site for the activation peptide, an important region of the protein that is removed to activate Factor IX. The novel site is an N-linked site in the serine protease domain with low occupancy in a non-canonical consensus motif at asparagine 258, observed with a HexNAc4Hex5NeuAc2 monosaccharide composition attached. This is the first reported instance of a site of modification in the serine protease domain. The description of these glycosylation events provides a basis for future functional studies and contributes to structural characterisation of native Factor IX for the production of effective therapeutic biosimilars and biobetters. [ABSTRACT FROM AUTHOR]

Published

2020

19. Magnetic titanium dioxide nanomaterial modified with hydrophilic dicarboxylic ligand for effective enrichment and separation of phosphopeptides and glycopeptides.

Author

Sun, Nianrong, Wu, Hao, and Shen, Xizhong

Subjects

*HYDROPHILIC interaction liquid chromatography, *TITANIUM dioxide, *AFFINITY chromatography, *HORSERADISH peroxidase, *PHOSPHOPEPTIDES

Abstract

A dual functionalized magnetic nanomaterial was fabricated by combining the magnetic core, titania shell, and hydrophilic molecules (denoted as Fe3O4@TiO2-IDA). Based on the mechanism of metal oxide affinity chromatography and hydrophilic interaction liquid chromatography, the sorbent shows excellent one-step separation capacity for both glycopeptides and phosphopeptides. For phosphopeptide enrichment, Fe3O4@TiO2-IDA exhibits high sensitivity and selectivity. The concentration of β-casein in the digests can be as low as 0.0125 ng μL−1; the mass ratio of β-casein and BSA digest can reach 1:800. For glycopeptide enrichment, Fe3O4@TiO2-IDA also exhibits good performance. The concentration of horseradish peroxidase (HRP) in the digested sample can be as low as 0.04 ng μL−1; the mass ratio of HRP and BSA digest can reach 1:100. Following the one-step enrichment, elution, and nano LC-MS/MS analysis, 550 unique phosphopeptides and 330 glycopeptides were identified from 100 μg mouse brain sample through a single run of LC-MS/MS. [ABSTRACT FROM AUTHOR]

Published

2020

20. Glycan size and attachment site location affect electron transfer dissociation (ETD) fragmentation and automated glycopeptide identification.

Author

Alagesan, Kathirvel, Hinneburg, Hannes, Seeberger, Peter H., Silva, Daniel Varón, and Kolarich, Daniel

Abstract

We established a small synthetic N-glycopeptide library to systematically evaluate the effect of glycosylation site location and glycan size on the efficiency of electron transfer dissociation (ETD) fragmentation and subsequent automated identification. The glycopeptides within this library differed in glycosylation site position and glycan size ranging from the pentasaccharide N-glycan core to fully sialylated, biantennary N-glycans. Factors such as glycan size, glycosylation site position within a glycopeptide and individual precursor m/z all significantly impacted the number and quality of assignable glycopeptide backbone fragments. Generally, high charge/low m/z precursors (>3+) and glycopeptides carrying neutral, smaller N-glycans gave better product ion spectra, while hardly any product ions were detectable for sialylated, triply charged N-glycopeptides. These factors impacted correct glycopeptide identification by proteomics software tools such as SEQUEST or Amanda. A better understanding how glycopeptide physico-chemical properties influence fragmentation will help optimizing fragmentation conditions and generate better data, which will facilitate software assisted glycopeptide data analyses. [ABSTRACT FROM AUTHOR]

Published

2019

21. Hydrophilic interaction liquid chromatography in the separation of glycopeptides and their isomers.

Author

Kozlik, Petr, Goldman, Radoslav, and Sanda, Miloslav

Subjects

*GLYCOPEPTIDES, *HYDROPHILIC interaction liquid chromatography, *HEMOPEXIN, *ADSORPTION (Chemistry), *SIALIC acids

Abstract

The analysis of intact glycopeptides is a challenge because of the structural variety of the complex conjugates. In this work, we used separation involving hydrophilic interaction liquid chromatography using a superficially porous particle HALO® penta-HILIC column with tandem mass spectrometric detection for the analysis of N-glycopeptides of hemopexin. We tested the effect of the mobile phase composition on retention and separation of the glycopeptides. The results indicated that the retention of the glycopeptides was the combination of partitioning and adsorption processes. Under the optimized conditions, our HILIC method showed the ability to efficiently separate the glycoforms of the same peptide backbone including separation of the isobaric glycoforms. We achieved efficient separation of core and outer arm linked fucose of bi-antennary and tri-antennary glycoforms of the SWPAVGNCSSALR peptide and bi-antennary glycoform of the ALPQPQNVTSLLGCTH peptide, respectively. Moreover, we demonstrated the separation of antennary position of sialic acid linked via α2-6 linkage of the monosialylated glycopeptides. Glycopeptide isomers are often differentially associated with various biological processes. Therefore, chromatographic separation of the species without the need for an extensive sample preparation appears attractive for their identification, characterization, and reliable quantification. [ABSTRACT FROM AUTHOR]

Published

2018

22. Designation of fingerprint glycopeptides for targeted glycoproteomic analysis of serum haptoglobin: insights into gastric cancer biomarker discovery.

Author

Lee, Jua, Hua, Serenus, Lee, Sung Hyeon, Oh, Myung Jin, Yun, Jaekyung, Kim, Jin Young, Kim, Jae-Han, Kim, Jung Hoe, and An, Hyun Joo

Subjects

*GASTRIC mucosa, *EARLY diagnosis, *GLYCOSYLATION, *GLYCOPROTEINS, *GLYCOPEPTIDES, *HAPTOGLOBINS, *CANCER

Abstract

Gastric cancer (GC) is one of the leading causes of cancer-related death worldwide, largely because of difficulties in early diagnosis. Despite accumulating evidence indicating that aberrant glycosylation is associated with GC, site-specific localization of the glycosylation to increase specificity and sensitivity for clinical use is still an analytical challenge. Here, we created an analytical platform with a targeted glycoproteomic approach for GC biomarker discovery. Unlike the conventional glycomic approach with untargeted mass spectrometric profiling of released glycan, our platform is characterized by three key features: it is a target-protein-specific, glycosylation-site-specific, and structure-specific platform with a one-shot enzyme reaction. Serum haptoglobin enriched by immunoaffinity chromatography was subjected to multispecific proteolysis to generate site-specific glycopeptides and to investigate the macroheterogeneity and microheterogeneity. Glycopeptides were identified and quantified by nano liquid chromatography–mass spectrometry and nano liquid chromatography–tandem mass spectrometry. Ninety-six glycopeptides, each corresponding to a unique glycan/glycosite pairing, were tracked across all cancer and control samples. Differences in abundance between the two groups were marked by particularly high magnitudes. Three glycopeptides exhibited exceptionally high control-to-cancer fold changes along with receiver operating characteristic curve areas of 1.0, indicating perfect discrimination between the two groups. From the results taken together, our platform, which provides biological information as well as high sensitivity and reproducibility, may be useful for GC biomarker discovery.Graphical abstractᅟ [ABSTRACT FROM AUTHOR]

Published

2018

23. Plasma Glycoproteomic Study of Therapeutic Hypothermia Reveals Novel Markers Predicting Neurologic Outcome Post-cardiac Arrest.

Author

Deng, Wenjun, Cao, Jing, Chen, Lei, McMullin, David, Januzzi, James, Buonanno, Ferdinando, Lo, Eng, and Ning, MingMing

Abstract

Therapeutic hypothermia (TH) is a neuroprotective treatment post-cardiac arrest but is grossly underutilized. After TH induction, traditional biomarkers and parameters can no long predict clinical outcome due to a lack of understanding of hypothermic response. Innovative approaches to better understand the clinical effect of TH will help to prognosticate outcome and expand beneficial population. Protein glycosylation is an important extracellular post-translational modification, regulating various extracellular signaling pathways. Here, we used glycoproteomics to investigate the association of plasma glycoproteins with the prognosis of TH-treated cardiac arrest patients. Using lectin affinity chromatography and mass spectrometry, we identified 640 glycoproteins in the plasma of cardiac arrest patients undergoing TH treatment, of which 23 were up-regulated and 14 were down-regulated in good outcome patients as compared with poor outcome ones. Notably, two glycoproteins with antioxidant activity, ceruloplasmin (CP) and haptoglobin (HP), were found to be associated with favorable neurologic outcome. This was further supported by ELISA assay in a large patients cohort, in which glycosylated CP and HP enriched by concanavilin A (ConA) and wheat germ agglutinin (WGA) lectins were significantly increased in patients developing good outcome (ConA-CP: p = 0.033; ConA-HP: p = 0.04; WGA-HP: p = 0.021). Furthermore, ROC analysis demonstrated the predictive potential of ConA-CP, ConA-HP, and WGA-HP (ConA-CP: AUC = 0.732, p = 0.031; ConA-HP: AUC = 0.746, p = 0.022; WGA-HP: AUC = 0.714, p = 0.046) and combination of them improved the predictive power (AUC = 0.830, p = 0.002). Our results suggested that glycosylated CP and HP as well as other glycoproteins may play critical roles in neuroprotection and serve as sensitive prognostic markers for TH treatments. [ABSTRACT FROM AUTHOR]

Published

2018

24. Facile and easily popularized synthesis of l-cysteine-functionalized magnetic nanoparticles based on one-step functionalization for highly efficient enrichment of glycopeptides.

Author

Feng, Xiaoyan, Deng, Chunhui, Gao, Mingxia, and Zhang, Xiangmin

Subjects

*GLYCOSYLATION, *IRON oxide nanoparticles, *NANOSTRUCTURED materials synthesis, *MAGNETIC nanoparticles, *CYSTEINE, *POST-translational modification

Abstract

Protein glycosylation is one of the most important post-translational modifications. Also, efficient enrichment and separation of glycopeptides from complex samples are crucial for the thorough analysis of glycosylation. Developing novel hydrophilic materials with facile and easily popularized synthesis is an urgent need in large-scale glycoproteomics research. Herein, for the first time, a one-step functionalization strategy based on metal-organic coordination was proposed and FeO nanoparticles were directly functionalized with zwitterionic hydrophilic l-cysteine (L-Cys), greatly simplifying the synthetic procedure. The easily synthesized FeO/L-Cys possessed excellent hydrophilicity and brief composition, contributing to affinity for glycopeptides and reduction in nonspecific interaction. Thus, FeO/L-Cys nanoparticles showed outstanding sensitivity (25 amol/μL), high selectivity (mixture of bovine serum albumin and horseradish peroxidase tryptic digests at a mass ratio of 100:1), good reusability (five repeated times), and stability (room temperature storage of 1 month). Encouragingly, in the glycosylation analysis of human serum, a total of 376 glycopeptides with 393 N-glycosylation sites corresponding to 118 glycoproteins were identified after enrichment with FeO/L-Cys, which was superior to ever reported L-Cys modified magnetic materials. Furthermore, applying the one-step functionalization strategy, cysteamine and glutathione respectively direct-functionalized FeO nanoparticles were successfully synthesized and also achieved efficient glycopeptide enrichment in human serum. The results indicated that we have presented an efficient and easily popularized strategy in glycoproteomics as well as in the synthesis of novel materials. [ABSTRACT FROM AUTHOR]

Published

2018

25. Direct analysis of site-specific N-glycopeptides of serological proteins in dried blood spot samples.

Author

Choi, Na, Hwang, Heeyoun, Ji, Eun, Park, Gun, Lee, Ju, Lee, Hyun, Kim, Jin, and Yoo, Jong

Subjects

*DRIED blood spot testing, *GLYCOPEPTIDES, *SEROLOGY, *PROTEINS, *LIQUID chromatography-mass spectrometry

Abstract

Dried blood spot (DBS) samples have a number of advantages, especially with respect to ease of collection, transportation, and storage and to reduce biohazard risk. N-glycosylation is a major post-translational modification of proteins in human blood that is related to a variety of biological functions, including metastasis, cell-cell interactions, inflammation, and immunization. Here, we directly analyzed tryptic N-glycopeptides from glycoproteins in DBS samples using liquid chromatography-tandem mass spectrometry (LC-MS/MS) without centrifugation of blood samples, depletion of major proteins, desalting of tryptic peptides, and enrichment of N-glycopeptides. Using this simple method, we identified a total of 41 site-specific N-glycopeptides from 16 glycoproteins in the DBS samples, from immunoglobulin gamma 1 (IgG-1, 10 mg/mL) down to complement component C7 (50 μg/mL). Of these, 32 N-glycopeptides from 14 glycoproteins were consistently quantified over 180 days stored at room temperature. The major abundant glycoproteins in the DBS samples were IgG-1 and IgG-2, which contain nine asialo-fucosylated complex types of 16 different N-glycopeptide isoforms. Sialo-non-fucosylated complex types were primarily detected in the other glycoproteins such as alpha-1-acid glycoprotein 1, 2, alpha-1-antitypsin, alpha-2-macroglobulin, haptoglobin, hemopexin, Ig alpha 1, 2 chain C region, kininogen-1, prothrombin, and serotransferrin. We first report the characterization of site-specific N-glycoproteins in DBS samples by LC-MS/MS with minimal sample preparation. [ABSTRACT FROM AUTHOR]

Published

2017

26. Glycomic and glycoproteomic analysis of glycoproteins-a tutorial.

Author

Shajahan, Asif, Heiss, Christian, Ishihara, Mayumi, and Azadi, Parastoo

Subjects

*GLYCOMICS, *GLYCOPROTEINS, *MASS spectrometry, *GLYCOPEPTIDES, *GLYCOSYLATION

Abstract

The structural analysis of glycoproteins is a challenging endeavor and is under steadily increasing demand, but only a very limited number of labs have the expertise required to accomplish this task. This tutorial is aimed at researchers from the fields of molecular biology and biochemistry that have discovered that glycoproteins are important in their biological research and are looking for the tools to elucidate their structure. It provides brief descriptions of the major and most common analytical techniques used in glycomics and glycoproteomics analysis, including explanations of the rationales for individual steps and references to published literature containing the experimental details necessary to carry out the analyses. Glycomics includes the comprehensive study of the structure and function of the glycans expressed in a given cell or organism along with identification of all the genes that encode glycoproteins and glycosyltransferases. Glycoproteomics which is subset of both glycomics and proteomics is the identification and characterization of proteins bearing carbohydrates as posttranslational modification. This tutorial is designed to ease entry into the glycomics and glycoproteomics field for those without prior carbohydrate analysis experience. [ABSTRACT FROM AUTHOR]

Published

2017

27. Site-specific glycosylation of the Newcastle disease virus haemagglutinin-neuraminidase.

Author

Pegg, Cassandra, Hoogland, Christine, and Gorman, Jeffrey

Abstract

Members of the Avulavirus, Respirovirus and Rubulavirus genera of the Paramyxoviridae family of viruses utilise haemagglutinin-neuraminidase glycoproteins as their attachment proteins. These glycoproteins are oligomeric type II integral membrane proteins, which possess haemagglutination and sialidase activity. Previous studies have shown that the N-linked glycans present on these proteins can modulate the ability of the virus to infect host cells and stimulate the host immune system. However, site-specific heterogeneity of these glycans has not been defined. This study concerns characterisation of the glycan compositions attached to haemagglutinin-neuraminidase of the Avulavirus Newcastle disease virus, which causes Newcastle disease in a range of avian species. Haemagglutinin-neuraminidase was derived from egg propagated virions of V4-VAR, an isolate of the avirulent strain QLD/66. Reverse-phase liquid chromatography tandem mass spectrometry strategies including collision induced dissociation, higher-energy collision dissociation and electron-transfer dissociation were implemented to characterise glycopeptides from the haemagglutinin-neuraminidase protein. Overall 63, 58, and 37 glycan compositions were identified at asparagine residues 341, 433 and 481, respectively. N-linked sites 433 and 481 were observed to contain high mannose glycans with paucimannose glycans also observed at site 481. Asparagine residues 341, 433 and 481 contained complex or hybrid glycans with many of the compositions containing variations of fucose and sulfate or phosphate. Sialyation of complex or hybrid N-linked glycans was additionally observed at sites 341 and 433. In addition, a previously undocumented O-linked glycopeptide was identified from the stalk domain of the haemagglutinin-neuraminidase protein. These finding will form the basis for future quantitative glycomic studies of the distribution of glycan structures across N-linked glycosylation sites of Newcastle disease virus haemagglutinin-neuraminidase and assessment of the functional significance of the O-linked glycan in the stalk domain of this protein. [ABSTRACT FROM AUTHOR]

Published

2017

28. Wisteria floribunda agglutinin-sialylated mucin core polypeptide 1 is a sensitive biomarker for biliary tract carcinoma and intrahepatic cholangiocarcinoma: a multicenter study.

Author

Shoda, Junichi, Matsuda, Atsushi, Shida, Takashi, Yamamoto, Masakazu, Nagino, Masato, Tsuyuguchi, Toshio, Yasaka, Takahiro, Tazuma, Susumu, Uchiyama, Kazuhisa, Unno, Michiaki, Ohkohchi, Nobuaki, Nakanuma, Yasuni, Kuno, Atsushi, and Narimatsu, Hisashi

Subjects

*BIOMARKERS, *INTRAHEPATIC bile ducts, *CHOLANGIOCARCINOMA, *GLYCOPROTEINS, *BILIOUS diseases & biliousness, *CLINICAL trials, *COMPARATIVE studies, *LONGITUDINAL method, *RESEARCH methodology, *MEDICAL cooperation, *PLANT proteins, *RESEARCH, *TUMOR antigens, *TUMOR classification, *EVALUATION research, *CASE-control method, *DIAGNOSIS, BILIARY tract cancer, BILIOUS disease diagnosis, BILE duct tumors

Abstract

Background: Wisteria floribunda agglutinin (WFA)-sialylated mucin core polypeptide 1 (MUC1) was investigated as a new glycoprotein marker for cholangiocarcinoma (CC) using glycoproteomics technologies. In this multicenter study, WFA-sialylated MUC1 levels in serum and bile samples were measured to determine their diagnostic capability in biliary tract carcinoma (BTC) and intrahepatic (Ih) CC.Methods: The study included 244 patients with BTC, 59 patients with IhCC, 287 patients with benign biliary tract diseases, and 44 control subjects.Results: Serum WFA-sialylated MUC1 levels were significantly higher in patients with either BTC or IhCC than in control subjects and those with benign biliary tract diseases. Patients with IhCC showed higher WFA-sialylated MUC1 levels than patients with tumors at other sites. No significant differences in WFA-sialylated MUC1 levels were found with regard to cancer stage or tissue type. Receiver operating characteristic curve analysis showed that WFA-sialylated MUC1 was superior to carbohydrate antigen 19-9 (CA19-9) and carcinoembryonic antigen (CEA) for the diagnosis of benign biliary tract diseases, BTC, and IhCC, as well as for stage I and II carcinomas. Significantly higher levels of biliary WFA-sialylated MUC1 were observed in BTC/IhCC than in benign biliary tract diseases. The diagnostic capability of biliary WFA-sialylated MUC1 was also superior to that of CA19-9, and diagnostic sensitivity was higher than that of biliary cytology for BTC/IhCC.Conclusions: WFA-sialylated MUC1 is a useful novel biomarker for BTC/IhCC. In the future, this measurement should be applied in the clinical setting. [ABSTRACT FROM AUTHOR]

Published

2017

29. It is all about the solvent: on the importance of the mobile phase for ZIC-HILIC glycopeptide enrichment.

Author

Alagesan, Kathirvel, Khilji, Sana, and Kolarich, Daniel

Subjects

*GLYCOPEPTIDES, *HYDROPHILIC interaction liquid chromatography, *ZWITTERIONS, *ORGANIC solvents, *METHANOL

Abstract

Glycopeptide enrichment is a crucial step in glycoproteomics for which hydrophilic interaction chromatography (HILIC) has extensively been applied due to its low bias towards different glycan types. A systematic evaluation of applicable HILIC mobile phases on glycopeptide enrichment efficiency and selectivity is, to date, however, still lacking. Here, we present a novel, simplified technique for HILIC enrichment termed 'Drop-HILIC', which was applied to systematically evaluate the mobile phase effect on ZIC-HILIC (zwitterionic type of hydrophilic interaction chromatography) glycopeptide enrichment. The four most commonly used MS compatible organic solvents were investigated: (i) acetonitrile, (ii) methanol, (iii) ethanol and (iv) isopropanol. Glycopeptide enrichment efficiencies were evaluated for each solvent system using samples of increasing complexity ranging from well-defined synthetic glycopeptides spiked into different concentrations of tryptic BSA peptides, followed by standard glycoproteins, and a complex sample derived from human (depleted and non-depleted) serum. ZIC-HILIC glycopeptide efficiency largely relied upon the used solvent. Different organic mobile phases enriched distinct glycopeptide subsets in a peptide backbone hydrophilicity-dependant manner. Acetonitrile provided the best compromise for the retention of both hydrophilic and hydrophobic glycopeptides, whereas methanol was confirmed to be unsuitable for this purpose. The enrichment efficiency of ethanol and isopropanol towards highly hydrophobic glycopeptides was compromised as considerable co-enrichment of unmodified peptides occurred, though for some hydrophobic glycopeptides isopropanol showed the best enrichment properties. This study shows that even minor differences in the peptide backbone and solvent do significantly influence HILIC glycopeptide enrichment and need to be carefully considered when employed for glycopeptide enrichment. [ABSTRACT FROM AUTHOR]

Published

2017

30. Quantitation of human milk proteins and their glycoforms using multiple reaction monitoring (MRM).

Author

Huang, Jincui, Kailemia, Muchena, Goonatilleke, Elisha, Parker, Evan, Hong, Qiuting, Sabia, Rocchina, Smilowitz, Jennifer, German, J., and Lebrilla, Carlito

Subjects

*MILK proteins, *BREASTFEEDING, *CHILD development, *CHILD nutrition, *GLYCOPROTEINS

Abstract

Human milk plays a substantial role in the child growth, development and determines their nutritional and health status. Despite the importance of the proteins and glycoproteins in human milk, very little quantitative information especially on their site-specific glycosylation is known. As more functions of milk proteins and other components continue to emerge, their fine-detailed quantitative information is becoming a key factor in milk research efforts. The present work utilizes a sensitive label-free MRM method to quantify seven milk proteins (α-lactalbumin, lactoferrin, secretory immunoglobulin A, immunoglobulin G, immunoglobulin M, α1-antitrypsin, and lysozyme) using their unique peptides while at the same time, quantifying their site-specific N-glycosylation relative to the protein abundance. The method is highly reproducible, has low limit of quantitation, and accounts for differences in glycosylation due to variations in protein amounts. The method described here expands our knowledge about human milk proteins and provides vital details that could be used in monitoring the health of the infant and even the mother. [ABSTRACT FROM AUTHOR]

Published

2017

31. Towards an automated analysis of bacterial peptidoglycan structure.

Author

Bern, Marshall, Beniston, Richard, and Mesnage, Stéphane

Subjects

*PEPTIDOGLYCANS, *BACTERIAL cells, *MACROMOLECULES, *AMINO acids, *HIGH performance liquid chromatography

Abstract

Peptidoglycan (PG) is an essential component of the bacterial cell envelope. This macromolecule consists of glycan chains alternating N-acetylglucosamine and N-acetylmuramic acid, cross-linked by short peptides containing nonstandard amino acids. Structural analysis of PG usually involves enzymatic digestion of glycan strands and separation of disaccharide peptides by reversed-phase HPLC followed by collection of individual peaks for MALDI-TOF and/or tandem mass spectrometry. Here, we report a novel strategy using shotgun proteomics techniques for a systematic and unbiased structural analysis of PG using high-resolution mass spectrometry and automated analysis of HCD and ETD fragmentation spectra with the Byonic software. Using the PG of the nosocomial pathogen Clostridium difficile as a proof of concept, we show that this high-throughput approach allows the identification of all PG monomers and dimers previously described, leaving only disambiguation of 3-3 and 4-3 cross-linking as a manual step. Our analysis confirms previous findings that C. difficile peptidoglycans include mainly deacetylated N-acetylglucosamine residues and 3-3 cross-links. The analysis also revealed a number of low abundance muropeptides with peptide sequences not previously reported. [ABSTRACT FROM AUTHOR]

Published

2017

32. Glycans and glycoproteins as specific biomarkers for cancer.

Author

Kailemia, Muchena, Park, Dayoung, and Lebrilla, Carlito

Subjects

*GLYCANS, *GLYCOPROTEINS, *GLYCOSYLATION, *CANCER diagnosis, *CANCER invasiveness

Abstract

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 such as global glycan release and site-specific glycosylation analysis and quantitation are also discussed. [ABSTRACT FROM AUTHOR]

Published

2017

33. Isotope-targeted glycoproteomics (IsoTaG) analysis of sialylated N- and O-glycopeptides on an Orbitrap Fusion Tribrid using azido and alkynyl sugars.

Author

Woo, Christina, Felix, Alejandra, Zhang, Lichao, Elias, Joshua, and Bertozzi, Carolyn

Subjects

*GLYCOPEPTIDES, *GLYCOSYLATION, *AZIDO group, *MASS spectrometry, *GLYCOPROTEINS

Abstract

Protein glycosylation is a post-translational modification (PTM) responsible for many aspects of proteomic diversity and biological regulation. Assignment of intact glycan structures to specific protein attachment sites is a critical step towards elucidating the function encoded in the glycome. Previously, we developed isotope-targeted glycoproteomics (IsoTaG) as a mass-independent mass spectrometry method to characterize azide-labeled intact glycopeptides from complex proteomes. Here, we extend the IsoTaG approach with the use of alkynyl sugars as metabolic labels and employ new probes in analysis of the sialylated glycoproteome from PC-3 cells. Using an Orbitrap Fusion Tribrid mass spectrometer, we identified 699 intact glycopeptides from 192 glycoproteins. These intact glycopeptides represent a total of eight sialylated glycan structures across 126 N- and 576 O-glycopeptides. IsoTaG is therefore an effective platform for identification of intact glycopeptides labeled by alkynyl or azido sugars and will facilitate further studies of the glycoproteome. [ABSTRACT FROM AUTHOR]

Published

2017

34. Use of an informed search space maximizes confidence of site-specific assignment of glycoprotein glycosylation.

Author

Khatri, Kshitij, Klein, Joshua, and Zaia, Joseph

Subjects

*GLYCOPROTEINS, *GLYCOSYLATION, *TANDEM mass spectrometry, *GLYCANS, *BIOINFORMATICS

Abstract

In order to interpret glycopeptide tandem mass spectra, it is necessary to estimate the theoretical glycan compositions and peptide sequences, known as the search space. The simplest way to do this is to build a naïve search space from sets of glycan compositions from public databases and to assume that the target glycoprotein is pure. Often, however, purified glycoproteins contain co-purified glycoprotein contaminants that have the potential to confound assignment of tandem mass spectra based on naïve assumptions. In addition, there is increasing need to characterize glycopeptides from complex biological mixtures. Fortunately, liquid chromatography-mass spectrometry (LC-MS) methods for glycomics and proteomics are now mature and accessible. We demonstrate the value of using an informed search space built from measured glycomes and proteomes to define the search space for interpretation of glycoproteomics data. We show this using α-1-acid glycoprotein (AGP) mixed into a set of increasingly complex matrices. As the mixture complexity increases, the naïve search space balloons and the ability to assign glycopeptides with acceptable confidence diminishes. In addition, it is not possible to identify glycopeptides not foreseen as part of the naïve search space. A search space built from released glycan glycomics and proteomics data is smaller than its naïve counterpart while including the full range of proteins detected in the mixture. This maximizes the ability to assign glycopeptide tandem mass spectra with confidence. As the mixture complexity increases, the number of tandem mass spectra per glycopeptide precursor ion decreases, resulting in lower overall scores and reduced depth of coverage for the target glycoprotein. We suggest use of α-1-acid glycoprotein as a standard to gauge effectiveness of analytical methods and bioinformatics search parameters for glycoproteomics studies. [ABSTRACT FROM AUTHOR]

Published

2017

35. Comparison of analytical methods for profiling N- and O-linked glycans from cultured cell lines.

Author

Ito, Hiromi, Kaji, Hiroyuki, Togayachi, Akira, Azadi, Parastoo, Ishihara, Mayumi, Geyer, Rudolf, Galuska, Christina, Geyer, Hildegard, Kakehi, Kazuaki, Kinoshita, Mitsuhiro, Karlsson, Niclas, Jin, Chunsheng, Kato, Koichi, Yagi, Hirokazu, Kondo, Sachiko, Kawasaki, Nana, Hashii, Noritaka, Kolarich, Daniel, Stavenhagen, Kathrin, and Packer, Nicolle

Abstract

The Human Disease Glycomics/Proteome Initiative (HGPI) is an activity in the Human Proteome Organization (HUPO) supported by leading researchers from international institutes and aims at development of disease-related glycomics/glycoproteomics analysis techniques. Since 2004, the initiative has conducted three pilot studies. The first two were N- and O-glycan analyses of purified transferrin and immunoglobulin-G and assessed the most appropriate analytical approach employed at the time. This paper describes the third study, which was conducted to compare different approaches for quantitation of N- and O-linked glycans attached to proteins in crude biological samples. The preliminary analysis on cell pellets resulted in wildly varied glycan profiles, which was probably the consequence of variations in the pre-processing sample preparation methodologies. However, the reproducibility of the data was not improved dramatically in the subsequent analysis on cell lysate fractions prepared in a specified method by one lab. The study demonstrated the difficulty of carrying out a complete analysis of the glycome in crude samples by any single technology and the importance of rigorous optimization of the course of analysis from preprocessing to data interpretation. It suggests that another collaborative study employing the latest technologies in this rapidly evolving field will help to realize the requirements of carrying out the large-scale analysis of glycoproteins in complex cell samples. [ABSTRACT FROM AUTHOR]

Published

2016

36. Human plasma protein N-glycosylation.

Author

Clerc, Florent, Reiding, Karli, Jansen, Bas, Kammeijer, Guinevere, Bondt, Albert, and Wuhrer, Manfred

Abstract

Glycosylation is the most abundant and complex protein modification, and can have a profound structural and functional effect on the conjugate. The oligosaccharide fraction is recognized to be involved in multiple biological processes, and to affect proteins physical properties, and has consequentially been labeled a critical quality attribute of biopharmaceuticals. Additionally, due to recent advances in analytical methods and analysis software, glycosylation is targeted in the search for disease biomarkers for early diagnosis and patient stratification. Biofluids such as saliva, serum or plasma are of great use in this regard, as they are easily accessible and can provide relevant glycosylation information. Thus, as the assessment of protein glycosylation is becoming a major element in clinical and biopharmaceutical research, this review aims to convey the current state of knowledge on the N-glycosylation of the major plasma glycoproteins alpha-1-acid glycoprotein, alpha-1-antitrypsin, alpha-1B-glycoprotein, alpha-2-HS-glycoprotein, alpha-2-macroglobulin, antithrombin-III, apolipoprotein B-100, apolipoprotein D, apolipoprotein F, beta-2-glycoprotein 1, ceruloplasmin, fibrinogen, immunoglobulin (Ig) A, IgG, IgM, haptoglobin, hemopexin, histidine-rich glycoprotein, kininogen-1, serotransferrin, vitronectin, and zinc-alpha-2-glycoprotein. In addition, the less abundant immunoglobulins D and E are included because of their major relevance in immunology and biopharmaceutical research. Where available, the glycosylation is described in a site-specific manner. In the discussion, we put the glycosylation of individual proteins into perspective and speculate how the individual proteins may contribute to a total plasma N-glycosylation profile determined at the released glycan level. [ABSTRACT FROM AUTHOR]

Published

2016

37. Glycoproteomic studies of IgE from a novel hyper IgE syndrome linked to PGM3 mutation.

Author

Wu, Gang, Hitchen, Paul, Panico, Maria, North, Simon, Barbouche, Mohamed-Ridha, Binet, Daniel, Morris, Howard, Dell, Anne, and Haslam, Stuart

Abstract

Glycans serve as important regulators of antibody activities and half-lives. IgE is the most heavily glycosylated antibody, but in comparison to other antibodies little is known about its glycan structure function relationships. We therefore describe the site specific IgE glycosylation from a patient with a novel hyper IgE syndrome linked to mutations in PGM3, which is an enzyme involved in synthesizing UDP-GlcNAc, a sugar donor widely required for glycosylation. A two-step method was developed to prepare two IgE samples from less than 1 mL of serum collected from a patient with PGM3 mutation and a patient with atopic dermatitis as a control subject. Then, a glycoproteomic strategy was used to study the site-specific glycosylation. No glycosylation was found at Asn264, whilst high mannose glycans were only detected at Asn275, tri-antennary glycans were exclusively observed at Asn99 and Asn252, and non-fucosylated complex glycans were detected at Asn99. The results showed similar glycosylation profiles between the two IgE samples. These observations, together with previous knowledge of IgE glycosylation, imply that IgE glycosylation is similarly regulated among healthy control, allergy and PGM3 related hyper IgE syndrome. [ABSTRACT FROM AUTHOR]

Published

2016

38. N-glycoprotein macroheterogeneity: biological implications and proteomic characterization.

Author

Zacchi, Lucia and Schulz, Benjamin

Abstract

Glycosylation is a co- and post-translational modification that is critical for the regulation of the biophysical properties and biological activities of diverse proteins. Biosynthetic pathways for protein glycosylation are inherently inefficient, resulting in high structural diversity in mature glycoproteins. Macroheterogeneity is the structural diversity due to the presence or absence of glycans at specific glycosylation sites, and is caused by inefficiency in the initial transfer of glycans to proteins. Here, we review the enzymatic and evolutionary mechanisms controlling macroheterogeneity, its biological consequences in physiological and disease states, its relevance to heterologous production and glycoengineering of glycoproteins, and mass spectrometry based methods for its analysis. We highlight the importance of the analysis of macroheterogeneity for a complete understanding of glycoprotein biosynthesis and function, and emphasize how advances in mass spectrometry glycoproteomics will enable analysis of this critical facet of glycoprotein structural diversity. [ABSTRACT FROM AUTHOR]

Published

2016

39. Liquid chromatography-tandem mass spectrometry-based fragmentation analysis of glycopeptides.

Author

Nilsson, Jonas

Abstract

The use of liquid chromatography-electrospray ionization-tandem mass spectrometry (LC-ESI-MS) for the glycoproteomic characterization of glycopeptides is a growing field of research. The N- and O-glycosylated peptides (N- and O-glycopeptides) analyzed typically originate from protease-digested glycoproteins where many of them are expected to be biomedically important. Examples of LC-MS and MS fragmentation strategies used to pursue glycan structure, peptide identity and attachment-site identification analyses of glycopeptides are described in this review. MS spectra, using the CID and HCD fragmentation techniques of a complex biantennary N-glycopeptide and a core 1 O-glycopeptide, representing two examples of commonly studied glycopeptide types, are presented. A few practical tips for accomplishing glycopeptide analysis using reversed-phase LC-MS shotgun proteomics settings, together with references to the latest glycoproteomic studies, are presented. [ABSTRACT FROM AUTHOR]

Published

2016

40. A case for protein-level and site-level specificity in glycoproteomic studies of disease.

Author

Schumacher, Katherine and Dodds, Eric

Abstract

Abnormal glycosylation of proteins is known to be either resultant or causative of a variety of diseases. This makes glycoproteins appealing targets as potential biomarkers and focal points of molecular studies on the development and progression of human ailment. To date, a majority of efforts in disease glycoproteomics have tended to center on either determining the concentration of a given glycoprotein, or on profiling the total population of glycans released from a mixture of glycoproteins. While these approaches have demonstrated some diagnostic potential, they are inherently insensitive to the fine molecular detail which distinguishes unique and possibly disease relevant glycoforms of specific proteins. As a consequence, such analyses can be of limited sensitivity, specificity, and accuracy because they do not comprehensively consider the glycosylation status of any particular glycoprotein, or of any particular glycosylation site. Therefore, significant opportunities exist to improve glycoproteomic inquiry into disease by engaging in these studies at the level of individual glycoproteins and their exact loci of glycosylation. In this concise review, the rationale for glycoprotein and glycosylation site specificity is developed in the context of human disease glycoproteomics with an emphasis on N-glycosylation. Recent examples highlighting disease-related perturbations in glycosylation will be presented, including those involving alterations in the overall glycosylation of a specific protein, alterations in the occupancy of a given glycosylation site, and alterations in the compositional heterogeneity of glycans occurring at a given glycosylation site. Each will be discussed with particular emphasis on how protein-specific and site-specific approaches can contribute to improved discrimination between glycoproteomes and glycoproteins associated with healthy and unhealthy states. [ABSTRACT FROM AUTHOR]

Published

2016

41. Altered glycosylation, expression of serum haptoglobin and alpha-1-antitrypsin in chronic hepatitis C, hepatitis C induced liver cirrhosis and hepatocellular carcinoma patients.

Author

Mondal, Gautam, Saroha, Ashish, Bose, Partha, and Chatterjee, B.

Abstract

Liver cirrhosis with hepatitis C viral infection (HCV-LC) causes high risk to develop hepatocellular carcinoma (HCC). Besides diagnosis of liver cirrhosis by biochemical test, imaging techniques, assessment of structural liver damage by biopsy shows several disadvantages. Our aim was to monitor the changes in the expression level of serum proteins and their glycosylation pattern among chronic hepatitis C (HCV-CH), HCV-LC and HCC patients with respect to controls. 2D gel electrophoresis of HCV-CH, HCV-LC and HCC patients' sera showed several protein spots, which were identified by LC-MS. The change in the expression of two prominent protein spots, haptoglobin (Hp) and alpha 1-antitrypsin (AAT) was evaluated by western blot and ELISA. The changes in glycosylation pattern of these serum proteins were assayed using different lectins. Increased level of Hp and AAT was observed in HCV-LC and HCC patients' group whereas those were found to be present less in HCV-CH patient groups with respect to control as determined by ELISA using monoclonal antibodies. Decreased level of sialylation in both Hp and AAT was observed in HCV-LC and HCV-CH patients' group whereas increased level of sialylation was observed in HCC patient groups by ELISA using Sambucus nigra agglutinin. On the other hand increased level of fucosylation in two serum glycoproteins was observed in HCV-LC and HCC patients' group using Lens culinarris agglutinin. High glycan branching was found in HCV-LC and HCC patient groups in Hp but not in HCV-CH as determined by Datura stramonium agglutinin. However, there was no such change observed in glycan branching in AAT of HCV-CH and HCV-LC patients' groups, to the contrary high glycan branching was observed in HCC patients' group. Increased level of exposed galactose in both serum proteins was observed in both HCC patients' group as determined by Ricinus communis agglutinin. The present glycoproteomics study could predict the progression of HCV-CH, HCV-LC and HCC without the need of liver biopsy. [ABSTRACT FROM AUTHOR]

Published

2016

42. The Application of High Throughput Mass Spectrometry to the Analysis of Glycoproteins.

Author

Singh, Sasha, Andersen, Morten Thaysen, and Steen, Judith Jebanathirajah

Abstract

Mass spectrometry has significantly contributed to the advancement of glycoprotein research. In combination with conventional glycan purification strategies, high throughput studies become practical, yielding a significant amount of detail regarding the glycoproteome. In this chapter, we provide an overview of commonly employed glycoprotein enrichment strategies which exploit the unique chemical features of glycans for their purification, and introduce the basic concepts of mass spectrometric methods as they apply to glycan identification and characterization. Landmark studies in the enrichment workflows and mass spectrometric analysis of glycans are summarized, as well as the major challenges that face glycoproteomic research. [ABSTRACT FROM AUTHOR]

Published

2011

43. Glycoproteomics in Health and Disease.

Author

Struwe, Weston B., Cosgrave, Eoin F.J., Byrne, Jennifer C., Saldova, Radka, and Rudd, Pauline M.

Abstract

The addition of oligosaccharides to proteins is a significant posttranslational modification that modulates protein structure, function and localization. Glycans are vital for development in all eukaryotes and are profoundly connected to a large number of human diseases, ranging from glycan genetic diseases to autoimmune disorders and cancer. Glycans present a difficult challenge in the analytical field because of the intricate dynamics of their synthesis as well as the complexity of the structures themselves. In addition to the role of glycans in development and disease, they are of great interest in the biotherapeutic industry where modification of glycosylation can significantly enhance therapeutic efficacy and biological activity in a range of glycoprotein products. However, glycosylation on a global scale in humans is yet to be fully appreciated as researchers are discovering that glycosylation is not only protein, cell or tissue specific, but is additionally influenced by individual genetics and environmental factors. Functional glycomics and glycoproteomics are emerging as a central field in systems biology and will continue to be a key focus in discerning health and disease. [ABSTRACT FROM AUTHOR]

Published

2011

44. GlycomicsGlycomics and Mass SpectrometryMass spectrometry (MS).

Author

Dell, Anne, Jang-Lee, Jihye, Pang, Poh-Choo, Parry, Simon, Sutton-Smith, Mark, Tissot, Berangere, Morris, Howard R., Panico, Maria, and Haslam, Stuart M.

Abstract

There is an increasing body of evidence indicating that glycans are implicated in numerous biological processes such as cell–cell interactions, intracellular signaling, and immune response. GlycomicsGlycomics emerges from the necessity to understand the mechanisms underlying the interactions responsible for these activities. The term glycomics is used to describe experimental approaches to studying the structure and function of the glycomesGlycomes of fluids, cells, tissues, organs etc. Glycomics embraces a variety of technologies amongst which mass spectrometry (MS) plays a pivotal role because it is the method of choice for defining the primary structures of glycopolymers. This chapter provides an insight into MSMS –based structural strategies that are best suited to studying complex glycomes. [ABSTRACT FROM AUTHOR]

Published

2008

45. Targeting the glycoproteome.

Author

Nilsson, Jonas, Halim, Adnan, Grahn, Ammi, and Larson, Göran

Abstract

Despite numerous original publications describing the structural complexity of N- and O-linked glycans on glycoproteins, only very few answer the basic question of which particular glycans are linked to which amino acid residues along the polypeptide chain. Such structural information is of fundamental importance for understanding the biological roles of complex glycosylations as well as deciphering their non-template driven biosynthesis. This review focuses on presenting and commenting on recent strategies, specifically aimed at identifying the glycoproteome of cultured cells and biological samples, using targeted and global enrichment procedures and utilizing the high resolution power, high through-put capacity and complementary fragmentation techniques of tandem mass spectrometry. The goal is to give an update of this emerging field of protein and glyco-sciences and suggest routes to bridge the data gap between the two aspects of glycoprotein characteristics, i.e. glycan structures and their attachment sites. [ABSTRACT FROM AUTHOR]

Published

2013

46. Analytical glycobiology at high sensitivity: current approaches and directions.

Author

Novotny, Milos, Alley, William, and Mann, Benjamin

Abstract

This review summarizes the analytical advances made during the last several years in the structural and quantitative determinations of glycoproteins in complex biological mixtures. The main analytical techniques used in the fields of glycomics and glycoproteomics involve different modes of mass spectrometry and their combinations with capillary separation methods such as microcolumn liquid chromatography and capillary electrophoresis. The need for high-sensitivity measurements have been emphasized in the oligosaccharide profiling used in the field of biomarker discovery through MALDI mass spectrometry. High-sensitivity profiling of both glycans and glycopeptides from biological fluids and tissue extracts has been aided significantly through lectin preconcentration and the uses of affinity chromatography. [ABSTRACT FROM AUTHOR]

Published

2013

47. Rapid glycopeptide enrichment and N-glycosylation site mapping strategies based on amine-functionalized magnetic nanoparticles.

Author

Kuo, Chu-Wei, Wu, I-Lin, Hsiao, He-Hsuan, and Khoo, Kay-Hooi

Subjects

*GLYCOPROTEINS, *NANOPARTICLES, *MASS spectrometry, *BIOMARKERS, *GLYCOPEPTIDES

Abstract

Glycoproteins secreted or expressed on the cell surface at specific pathophysiological stages are well-recognized disease biomarkers and therapeutic targets. While mapping of specific glycan structures can be performed at the level of released glycans, site-specific glycosylation and identification of specific protein carriers can only be determined by analysis of glycopeptides. A key enabling step in mass spectrometry (MS)-based glycoproteomics is the ability to selectively or non-selectively enrich for the glycopeptides from a total pool of a digested proteome for MS analysis since the highly heterogeneous glycopeptides are usually present at low abundance and ionize poorly compared with non-glycosylated peptides. Among the most common approaches for non-destructive and non-glycan-selective glycopeptide enrichment are strategies based on various forms of hydrophilic interaction liquid chromatography (HILIC). We present here a variation of this method using amine-derivatized FeO nanoparticles, in concert with in situ peptide N-glycosidase F digestion for direct matrix-assisted laser desorption/ionization-mass spectrometry analysis of N-glycosylation sites and the released glycans. Conditions were also optimized for efficient elution of the enriched glycopeptides from the nanoparticles for on-line nanoflow liquid chromatography-MS/MS analysis. Successful applications to single glycoproteins as well as total proteomic mixtures derived from biological fluids established the unrivaled practical versatility of this method, with enrichment efficiency comparable to other HILIC-based methods. [ABSTRACT FROM AUTHOR]

Published

2012

48. Profiling and comparative analysis of glycoproteins in Hs578BST and Hs578T and investigation of prolyl 4-Hydroxylase alpha polypeptide II expression and influence in breast cancer cells.

Author

Pan, Peng, Zhang, Qi, Bai, Fang, Hou, Jie, and Bai, Gang

Subjects

*COMPARATIVE studies, *GLYCOPROTEINS, *HYDROXYLASES, *GENE expression, *BREAST cancer, *ELECTROPHORESIS, *IMMUNOHISTOCHEMISTRY, *CANCER cell proliferation

Abstract

To identify potential cancer related glycoproteins in breast cancer cells, we enriched N-linked glycoproteins by lentil lectin from the human breast cancer cell line Hs578T and the normal breast cell line Hs578BST for proteomic comparison. Glycoproteins were separated and compared by two-dimensional electrophoresis. Twenty-four glycoproteins were identified that expressed remarkably differently, among which nine were involved in the progress of collagen synthesis. Prolyl 4-hydroxylase alpha polypeptide II (P4HA2) expression and influence in breast cancer was further investigated. Immunohistochemistry revealed that P4HA2 was upregulated in breast tumor cells compared with its adjacent normal tissues. Moreover, overexpression and RNA interference of P4HA2 showed that P4HA2 expression suppressed cell proliferation and migration in Hs578T in vitro. [ABSTRACT FROM AUTHOR]

Published

2012

49. One-step immunopurification and lectinochemical characterization of the Duffy atypical chemokine receptor from human erythrocytes.

Author

Grodecka, Magdalena, Bertrand, Olivier, Karolak, Ewa, Lisowski, Marek, and Waśniowska, Kazimiera

Abstract

Duffy antigen/receptor for chemokines (DARC) is a glycosylated seven-transmembrane protein acting as a blood group antigen, a chemokine binding protein and a receptor for Plasmodium vivax malaria parasite. It is present on erythrocytes and endothelial cells of postcapillary venules. The N-terminal extracellular domain of the Duffy glycoprotein carries Fy/Fy blood group antigens and Fy6 linear epitope recognized by monoclonal antibodies. Previously, we have shown that recombinant Duffy protein expressed in K562 cells has three N-linked oligosaccharide chains, which are mainly of complex-type. Here we report a one-step purification method of Duffy protein from human erythrocytes. DARC was extracted from erythrocyte membranes in the presence of 1% n-dodecyl-β-D-maltoside (DDM) and 0.05% cholesteryl hemisuccinate (CHS) and purified by affinity chromatography using immobilized anti-Fy6 2C3 mouse monoclonal antibody. Duffy glycoprotein was eluted from the column with synthetic DFEDVWN peptide containing epitope for 2C3 monoclonal antibody. In this single-step immunoaffinity purification method we obtained highly purified DARC, which migrates in SDS-polyacrylamide gel as a major diffuse band corresponding to a molecular mass of 40-47 kDa. In ELISA purified Duffy glycoprotein binds anti-Duffy antibodies recognizing epitopes located on distinct regions of the molecule. Results of circular dichroism measurement indicate that purified DARC has a high content of α-helical secondary structure typical for chemokine receptors. Analysis of DARC glycans performed by means of lectin blotting and glycosidase digestion suggests that native Duffy N-glycans are mostly triantennary complex-type, terminated with α2-3- and α2-6-linked sialic acid residues with bisecting GlcNAc and α1-6-linked fucose at the core. [ABSTRACT FROM AUTHOR]

Published

2012

50. Reversed-phase depletion coupled with hydrophilic affinity enrichment for the selective isolation of N-linked glycopeptides by using Click OEG-CD matrix.

Author

Yanyan Zhao, Long Yu, Zhimou Guo, Xiuling Li, and Xinmiao Liang

Subjects

*GLYCOPEPTIDES, *LIQUID chromatography, *GLYCOSYLATION, *PROTEINS, *IMMUNOGLOBULINS

Abstract

Selective enrichment of glycopeptides is of great importance for protein glycosylation analysis using mass spectrometry since the signals of glycopeptides could be severely suppressed by the coexisting non-glycosylated peptides in the protein digest. In the present work, a strategy for N-linked glycopeptide enrichment through reversed-phase depletion coupled with hydrophilic affinity enrichment by applying the customized matrix named Click OEG-CD is developed. Compared with single hydrophilic interaction liquid chromatography (HILIC) mode, the strategy exhibited remarkably higher selectivity for N-linked glycopeptides. As many as 22, 18, and eight glycopeptides were detected in the glycopeptide fraction enriched with the strategy from the digests of human immunoglobulin G, horseradish peroxidase and bovine ribonuclease B, respectively. In addition, the strategy also showed high glycosylation microheterogeneity coverage for the enrichment of human α-acid glycoprotein glycopeptides. More than 170 glycopeptides covering all the glycosylation sites were detected in the enriched fraction. The revered-phase liquid chromatography depletion coupled with HILIC enrichment strategy by using Click OEG-CD matrix is expected to show more potential in further applications in glycosylation analysis. [Figure not available: see fulltext.] [ABSTRACT FROM AUTHOR]

Published

2011