William R. Alley scite author profile

Glycosylated proteins play important roles in a broad spectrum of biochemical and biological processes, and prior reports have suggested that changes in protein glycosylation occur during cancer initiation and progression. Ovarian cancer (OC) is a fatal malignancy, most commonly diagnosed after the development of metastases. Therefore, early detection of OC is key to improving survival. To this end, specific changes of the serum glycome have been proposed as possible biomarkers for different types of cancers. In this study, we extend this concept to OC. To characterize differences in total N-glycan levels, serum samples provided by 20 healthy control women were compared to those acquired from patients diagnosed with late-stage recurrent OC who were enrolled in an experimental treatment trial prior to receiving therapy (N = 19) and one month later, prior to the second treatment cycle (N = 11). Additionally, analyses of the N-glycans associated with IgG and characterization of the relative abundance levels of core vs. outer-arm fucosylation were also performed. The N-linked glycomic profiles revealed increased abundances of tri- and tetra-branched structures with varying degrees of sialylation and fucosylation and an apparent decrease in the levels of “bisecting” glycans in OC samples compared to controls. Increased levels of a-galactosylated structures were observed on N-linked glycans derived from IgG, which were independent of the presence of fucose residues. Elevated levels of outer-arm fucosylation were also identified in the OC samples. These results allowed the control samples to be distinguished from the baseline ovarian cancer patients prior to receiving the experimental treatment. In some cases, the pre-treatment samples could be distinguished from the post-experimental treatment samples, as many of those patients showed a further progression of the disease.

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Glycomic Analysis of Sialic Acid Linkages in Glycans Derived from Blood Serum Glycoproteins

Alley

2010

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A number of alterations to the normal glycomic profile have been previously described for a number of diseases and disorders, thus underscoring the medical importance of studying the glycans associated with proteins present in biological samples. An important alteration in cancer progression is an increased level of α2,6-sialylation, which aids in increasing the metastatic potential of tumor cells. Here we report a glycomic method that selectively amidates α2,6-linked sialic acids, while those that are α2,3-linked undergo spontaneous lactonization. Following subsequent permethylation, MALDI-TOF-MS analysis revealed that many sialylated glycans present on glycoproteins found in blood serum featured increased levels of α2,6 sialylation in breast cancer samples. Based on the altered ratios of α2,3-linked to α2,6-linked sialic acids, many of these glycans became diagnostically relevant when they did not act as such indicators when based on traditional glycomic profiling alone.

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Chip-based Reversed-phase Liquid Chromatography−Mass Spectrometry of Permethylated N-Linked Glycans: A Potential Methodology for Cancer-biomarker Discovery

et al. 2010

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The study of protein glycosylation in biological fluids and tissues has substantial medical importance, as changes in glycan structures have now been associated with a number of diseases. Quantification of glycomic-profile changes is becoming increasingly important in the search for disease biomarkers. Here, we report a highly reproducible combination of a glycomic sample preparation/solid-phase derivatization of glycoprotein-derived N-linked glycans with their subsequent microchip-based separation and mass-spectrometric (MS) measurements. Following our previously-described reductive β-elimination for O-linked glycans with ammonia-borane complex to reduce N-linked structures, the N-linked alditol structures are effectively methylated in dimethylformamide medium to avoid artefacts in MS measurements. Reversed-phase microfluidic liquid chromatography (LC) of methylated N-linked oligosaccharide alditols resolved some closely related structures into regular retention increments, aiding in their structural assignments. Optimized LC gradients, together with nanospray MS, have been applied here in the quantitative measurements of N-linked glycans in blood serum, distinguishing breast cancer patients from control individuals.

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Characterization of glycopeptides by combining collision‐induced dissociation and electron‐transfer dissociation mass spectrometry data

Alley

Mechref

Novotný

2008

Rapid Comm Mass Spectrometry

147

134

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Structural characterization of a glycopeptide is not easily attained through collision-induced dissociation (CID), due to the extensive fragmentation of glycan moieties and minimal fragmentation of peptide backbones. In this study, we have exploited the potential of electron-transfer dissociation (ETD) as a complementary approach for peptide fragmentation. Model glycoproteins, including ribonuclease B, fetuin, horseradish peroxidase, and haptoglobin, were used here. In ETD, radical anions transfer an electron to the peptide backbone and induce cleavage of the N-Calpha bond. The glycan moiety is retained on the peptide backbone, being largely unaffected by the ETD process. Accordingly, ETD allows not only the identification of the amino acid sequence of a glycopeptide, but also the unambiguous assignment of its glycosylation site. When data acquired from both fragmentation techniques are combined, it is possible to characterize comprehensively the entire glycopeptide. This is being achieved with a mass spectrometer capable of alternating between CID and ETD on-the-fly during an LC/MS/MS analysis. This is demonstrated here with several tryptic glycopeptides.

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William R. Alley

High-sensitivity Analytical Approaches for the Structural Characterization of Glycoproteins

N-linked Glycan Structures and Their Expressions Change in the Blood Sera of Ovarian Cancer Patients

Glycomic Analysis of Sialic Acid Linkages in Glycans Derived from Blood Serum Glycoproteins

Chip-based Reversed-phase Liquid Chromatography−Mass Spectrometry of Permethylated N-Linked Glycans: A Potential Methodology for Cancer-biomarker Discovery

Characterization of glycopeptides by combining collision‐induced dissociation and electron‐transfer dissociation mass spectrometry data

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