Elvira Balaguer scite author profile

Glycosylation of recombinant human erythropoietin (rHuEPO) is a post-translational process that alters biological activity, solubility and lifetime of the glycoprotein in blood, and strongly depends on the type of cell and the cell culture conditions. A fast and simple method providing extensive carbohydrate information about the glycans present in rHuEPO and other glycoproteins is needed in order to improve current methods in drug development or product quality control. Here, an improved method for intact rHuEPO glycoform characterization by CZE-ESI-TOF MS has been developed using a novel capillary coating and compared to a previous study. Both methods allow a fast separation in combination with accurate mass characterization of the single protein isoforms. The novel dynamic coating provides a separation at an EOF close to zero, enabling better separation. This results in an improved mass spectrometric resolution and the detection of minor isoforms. In order to assign an unequivocal carbohydrate composition to every intact glycoform, a CZE-ESI-MS separation method for enzymatically released underivatized N-glycans has been developed. The TOF MS allows the correct identification of the glycans due to its high mass accuracy and resolution. Therefore, glycan modifications such as acetylation, oxidation, sulfation and even the exchange of OH by NH(2) are successfully characterized. Information of the protein-backbone molecular mass has been combined with results from peptide analysis (revealing information about O-glycosylation) and from the glycan analysis, including the detection of as yet undescribed glycans containing four antennae and five sialic acids. This allows an unequivocal assignment of an overall glycosylation composition to the molecular masses obtained for the intact rHuEPO glycoforms.

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Glycoprotein Characterization Combining Intact Protein and Glycan Analysis by Capillary Electrophoresis-Electrospray Ionization-Mass Spectrometry

Balaguer

2006

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Glycosylated proteins play important roles in a large number of biological processes. Therefore, a complete characterization in terms of glycan structures and glycoform heterogeneity is needed. In this paper, a combined approach based on glycan and intact glycoprotein analysis by capillary zone electrophoresis-electrospray-mass spectrometry (CZE-ESI-MS) is presented. Based on a new capillary coating, a CZE-ESI-MS method for the separation and characterization of intact glycoproteins has been developed and compared to a method recently introduced for the characterization of erythropoietin. The excellent glycoform separation results in high-quality mass spectra, high dynamic range, and good sensitivity, allowing the correct characterization of minor glycan modifications. Additionally, a CZE-ESI-MS separation method for underivatized N-glycans has been developed. The separation of glycans differing in the degree of sialic acids and repeats of noncharged carbohydrates is achieved. The separation power of the method is demonstrated by obtaining mobility differences in glycans differing only by 16 Da. A time-of-flight mass spectrometer allowed the correct identification of the glycan composition based on high mass accuracy and resolution, identifying even minor modifications such as the exchange of "O" by "NH". An ion trap mass spectrometer provided structural information of the underivatized glycans from fragmentation spectra. The general applicability of both methods to glycoprotein analysis is illustrated for erythropoietin, fetuin, and alpha1-acid glycoprotein. The results obtained by the glycan analysis allowed an unequivocal glyco-assignment to the masses obtained for the intact proteins as long as the protein backbone is well characterized. Furthermore, modifications found for intact proteins can be attributed to differences in the glycostructure.

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Modelling migration behavior of peptide hormones in capillary electrophoresis-electrospray mass spectrometry

Benavente

Balaguer

Barbosa

et al. 2006

Journal of Chromatography A

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Characterization of transferrin glycoforms in human serum by CE‐UV and CE‐ESI‐MS

et al. 2007

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Human transferrin (Tf) is a model glycoprotein for congenital disorders of glycosylation (CDG) diagnosis. In the last few years, new CE-UV methods for intact Tf glycoforms analysis have been developed using nonvolatile BGEs and organic modifiers. However, the use of these BGEs does not allow the coupling of these procedures with electrospray MS (ESI-MS). In this study, a new CE-UV separation method of Tf glycoforms is developed, using a double-layer stable coating and a volatile BGE based on ammonium acetate. The separation method is optimized using standard Tf and their potential is demonstrated applying the method to the analysis of sera Tf from healthy individuals and CDG patients. The CE-UV separation method has been coupled to ESI-MS detection. Main parameters such as sheath liquid composition are optimized in order to obtain a good sensitivity. The CE-ESI-MS method has also been used in serum samples obtaining the separation of the different proteins present in serum and partial separation of Tf glycoforms. Different mass spectra and deconvoluted molecular masses were obtained for each sialoform, allowing unequivocal glycoform identification.

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Capillary electrophoresis coupled to time of flight‐mass spectrometry of therapeutic peptide hormones

et al. 2003

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We have established a method for separation and characterization of a series of peptide hormones of pharmaceutical interest and wide therapeutical use by capillary electrophoresis-electrospray-mass spectrometry (CE-ES-MS) using a sheath flow interface. Several parameters were systematically investigated, such as concentration of the electrolyte, organic solvent and sheath liquid composition, gas flow rates and capillary position. Moreover, limits of detection, linearity, repeatability and day-to-day reproducibility of the proposed method were studied in order to obtain the main quality parameters.

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Elvira Balaguer

Glycoform characterization of erythropoietin combining glycan and intact protein analysis by capillary electrophoresis – electrospray – time‐of‐flight mass spectrometry

Glycoprotein Characterization Combining Intact Protein and Glycan Analysis by Capillary Electrophoresis-Electrospray Ionization-Mass Spectrometry

Modelling migration behavior of peptide hormones in capillary electrophoresis-electrospray mass spectrometry

Characterization of transferrin glycoforms in human serum by CE‐UV and CE‐ESI‐MS

Capillary electrophoresis coupled to time of flight‐mass spectrometry of therapeutic peptide hormones

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