用于代谢聚糖标记的未保护和1,6-二-O-酰化形式的可点击非天然糖的简便合成。

Facile Synthesis of Clickable Unnatural Sugars in the Unprotected and 1,6-Di-O-Acylated Forms for Metabolic Glycan Labeling.

作者信息

Cheng Bo, Wang Chunting, Hao Yi, Wang Jiankun, Xia Xiaoqian, Zhang Hao, He Rundong, Zhang Shaoran, Dai Peng, Chen Xing

机构信息

College of Chemistry and Molecular Engineering, Beijing National Laboratory for Molecular Sciences, Peking-Tsinghua Center for Life Sciences, Synthetic and Functional Biomolecules Center, Key Laboratory of Bioorganic Chemistry and, Molecular Engineering of Ministry of Education, Peking University, Beijing, 100871, P. R. China.

出版信息

Chemistry. 2023 Feb 21;29(11):e202203054. doi: 10.1002/chem.202203054. Epub 2023 Jan 12.

DOI:10.1002/chem.202203054

PMID:36422057

Abstract

Clickable unnatural sugars have been widely used in studying glycosylation in living systems via the metabolic glycan labelling (MGL) strategy. Partial protection of unnatural sugars by 1,6-di-O-acylation increases the labelling efficiency while avoiding the non-specific S-glyco-modification. Herein, we report the facile synthesis of a series of clickable unnatural sugars in both the unprotected and 1,6-di-O-acylated forms at the ten-gram scale. By evaluation of the labelling specificity, efficiency, and biocompatibility of various 1,6-di-O-acylated sugars for MGL in cell lines and living mice, we demonstrate that 1,6-di-O-propionylated unnatural sugars are optimal chemical reporters for glycan labelling. The synthetic routes developed in this work should facilitate the widespread use of MGL with no artificial S-glyco-modification for investigating the functional roles of glycans.

摘要

可点击的非天然糖已通过代谢聚糖标记（MGL）策略广泛应用于活细胞系统中糖基化的研究。通过1,6-二-O-酰化对非天然糖进行部分保护，可提高标记效率，同时避免非特异性S-糖基修饰。在此，我们报道了一系列可点击的非天然糖在未保护形式和1,6-二-O-酰化形式下以十克规模的简便合成方法。通过评估各种1,6-二-O-酰化糖在细胞系和活体小鼠中进行MGL的标记特异性、效率和生物相容性，我们证明1,6-二-O-丙酰化的非天然糖是聚糖标记的最佳化学报告分子。本研究中开发的合成路线应有助于无人工S-糖基修饰的MGL广泛用于研究聚糖的功能作用。

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用于代谢聚糖标记的未保护和1,6-二-O-酰化形式的可点击非天然糖的简便合成。

Facile Synthesis of Clickable Unnatural Sugars in the Unprotected and 1,6-Di-O-Acylated Forms for Metabolic Glycan Labeling.

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