合成 O-乙酰化唾液酸糖脂促进人类呼吸道病毒功能性受体的鉴定。

Synthetic O-acetylated sialosides facilitate functional receptor identification for human respiratory viruses.

机构信息

Department of Chemical Biology and Drug Discovery, Utrecht Institute for Pharmaceutical Sciences, Utrecht University, Utrecht, The Netherlands.

Virology Division, Department of Biomolecular Health Sciences, Faculty of Veterinary Medicine, Utrecht University, Utrecht, The Netherlands.

出版信息

Nat Chem. 2021 May;13(5):496-503. doi: 10.1038/s41557-021-00655-9. Epub 2021 Mar 22.

DOI:10.1038/s41557-021-00655-9

PMID:33753916

Abstract

The transmission of viruses from animal reservoirs to humans poses major threats to public health. Preparedness for future zoonotic outbreaks requires a fundamental understanding of how viruses of animal origin have adapted to binding to a cell surface component and/or receptor of the new host. Here we report on the specificities of human and animal viruses that engage with O-acetylated sialic acid, which include betacoronaviruses, toroviruses and influenza C and D viruses. Key to these studies was the development of a chemoenzymatic methodology that can provide almost any sialate-acetylation pattern. A collection of O-acetylated sialoglycans was printed as a microarray for the determination of receptor specificity. These studies showed host-specific patterns of receptor recognition and revealed that three distinct human respiratory viruses uniquely bind 9-O-acetylated α2,8-linked disialoside. Immunofluorescence and cell entry studies support that such a glycotope as part of a ganglioside is a functional receptor for human coronaviruses.

摘要

病毒从动物宿主传播到人类，对公共卫生构成重大威胁。为未来的人畜共患病爆发做好准备，需要从根本上了解动物源病毒是如何适应与新宿主细胞表面成分和/或受体结合的。本文报告了与 O-乙酰化唾液酸结合的人类和动物病毒的特异性，其中包括β冠状病毒、杯状病毒和丙型及丁型流感病毒。这些研究的关键是开发了一种化学酶方法，该方法可以提供几乎任何唾液酸乙酰化模式。将一组 O-乙酰化神经氨酸聚糖作为微阵列打印出来，以确定受体特异性。这些研究表明了受体识别的宿主特异性模式，并揭示了三种不同的人类呼吸道病毒独特地结合 9-O-乙酰化的α2,8 连接的二唾液酸。免疫荧光和细胞进入研究支持作为神经节苷脂一部分的这种糖基是人类冠状病毒的功能性受体。

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合成 O-乙酰化唾液酸糖脂促进人类呼吸道病毒功能性受体的鉴定。

Synthetic O-acetylated sialosides facilitate functional receptor identification for human respiratory viruses.

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