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Labeling of Mucin-Type O-Glycans for Quantification Using Liquid Chromatography and Fluorescence Detection

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Safferthal,  Marc       
Molecular Physics, Fritz Haber Institute, Max Planck Society;

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Bechtella,  Leila       
Molecular Physics, Fritz Haber Institute, Max Planck Society;

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Zappe,  Andreas
Molecular Physics, Fritz Haber Institute, Max Planck Society;

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Vos,  Gaël M.       
Molecular Physics, Fritz Haber Institute, Max Planck Society;

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Pagel,  Kevin       
Molecular Physics, Fritz Haber Institute, Max Planck Society;

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Citation

Safferthal, M., Bechtella, L., Zappe, A., Vos, G. M., & Pagel, K. (2024). Labeling of Mucin-Type O-Glycans for Quantification Using Liquid Chromatography and Fluorescence Detection. ACS Measurement Science Au, 4(2), 223-240. doi:10.1021/acsmeasuresciau.3c00071.


Cite as: https://hdl.handle.net/21.11116/0000-000E-808F-0
Abstract
O-glycosylation is a common post-translational modification that is essential for the defensive properties of mucus barriers. Incomplete and altered O-glycosylation is often linked to severe diseases, such as cancer, cystic fibrosis, and chronic obstructive pulmonary disease. Originating from a nontemplate-driven biosynthesis, mucin-type O-glycan structures are very complex. They are often present as heterogeneous mixtures containing multiple isomers. Therefore, the analysis of complex O-glycan mixtures usually requires hyphenation of orthogonal techniques such as liquid chromatography (LC), ion mobility spectrometry, and mass spectrometry (MS). However, MS-based techniques are mainly qualitative. Moreover, LC separation of O-glycans often lacks reproducibility and requires sophisticated data treatment and analysis. Here we present a mucin-type O-glycomics analysis workflow that utilizes hydrophilic interaction liquid chromatography for separation and fluorescence labeling for detection and quantification. In combination with mass spectrometry, a detailed analysis on the relative abundance of specific mucin-type O-glycan compositions and features, such as fucose, sialic acids, and sulfates, is performed. Furthermore, the average number of monosaccharide units of O-glycans in different samples was determined. To demonstrate universal applicability, the method was tested on mucins from different tissue types and mammals, such as bovine submaxillary mucins, porcine gastric mucins, and human milk mucins. To account for day-to-day retention time shifts in O-glycan separations and increase the comparability between different instruments and laboratories, we included fluorescently labeled dextran ladders in our workflow. In addition, we set up a library of glucose unit values for all identified O-glycans, which can be used to simplify the identification process of glycans in future analyses.