Abstract
Cell surface glycans show dynamic changes during cell differentiation. Several glycans are useful biomarkers of tumors, stem cells, and embryogenesis. Glycomic studies have been performed using liquid chromatography and mass spectrometry, which are powerful tools for glycan structural analysis but are difficult to use for small sample sizes. Recently, a lectin microarray system was developed for profiling cell surface glycome changes to terminal carbohydrate chains and branch types, using sample sizes of a few micrograms. In this study, we used the lectin microarray system for the first time to investigate stage-specific glycomes in Xenopus laevis embryos. Unsupervised cluster analysis of lectin microarray data indicated that glycan profiles changed sequentially during development. Nine lectin probes showed significantly different signals between early and the late-stage embryos: 4 showed higher signals in the early stages, and 5 exhibited higher signals in the late stages. The gene expression profiles of relevant glycosyltransferase genes support the lectin microarray data. Therefore, we have shown that lectin microarray is an effective tool for high-throughput glycan analysis in Xenopus embryogenesis, allowing glycan profiling of early embryos and small biopsy specimens.
Highlights
Changes in glycan expression are thought to be important in a wide range of bioprocesses, little is known about the nature and magnitude of glycome changes that occur during embryogenesis
We examined Xenopus laevis glycome profiles during developmental progression using a lectin microarray system, and in parallel, we analyzed the expression profiles of genes related to glycan synthesis using DNA microarray
Significant changes were detected in lectin probe signals, indicating the presence of specific glycans during embryogenesis
Summary
We examined Xenopus laevis glycome profiles during developmental progression using a lectin microarray system, and in parallel, we analyzed the expression profiles of genes related to glycan synthesis using DNA microarray. The lectin microarray system revealed stage-specific glycan profiles in Xenopus embryos. The lectin microarray data revealed that the expression of ABO blood-group glycans, ßGalNAc, and aGalNAc (Tn-antigen) decreased during embryogenesis, while the expression of high-mannose–type Nglycans increased.
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