Isomer-specific biomarker discovery in multiple myeloma with dual-derivatized N-glycans.

Chang Wang, Chaoying Zhang, Xinchang Gao, Jin-Ming Lin

Analytical and bioanalytical chemistry 2022 Jul

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As one of the most important post-translational modifications, protein glycosylation plays vital role in various physiological processes. With multitudinous glycosyltransferases, N-glycans present structural diversity in linkages and branching styles. Structure-specific glycan profiling may provide more potential biological information than compositional profiling. In this work, N-glycans released from human serum samples were derivatized with reduction and methylamination prior to profiling using nanoLC-ESI-MS with PGC as stationary phase. In addition, α 2-3 neuraminidase was also applied for distinguishing the linkage types of sialic acid corresponding to different isomers. Relative abundances of 280 isomeric N-glycans were compared and 20 isomers showed significant difference between multiple myeloma cases and healthy controls. ROC was performed to assess the significantly altered isomeric glycans and 6 AUCs have exceeded 0.80, providing high diagnostic accuracy for MM. PCA is also employed to establish the differences among sample sets. Furthermore, these specific isomers have also been used for early detection of multiple myeloma, presenting important clinical application value. Isomer-specific biomarker discovery in multiple myeloma with dual-derivatized N-glycans. © 2022. Springer-Verlag GmbH Germany, part of Springer Nature.

Citation

Chang Wang, Chaoying Zhang, Xinchang Gao, Jin-Ming Lin. Isomer-specific biomarker discovery in multiple myeloma with dual-derivatized N-glycans. Analytical and bioanalytical chemistry. 2022 Jul;414(18):5617-5626