使用一种具有底物宽泛性的细菌糖基转移酶对核苷类似物进行3'-β-糖基化修饰

3'--β-Glucosylation of nucleoside analogues using a promiscuous bacterial glycosyltransferase.

作者信息

Dolan Jonathan P, Keenan Tessa, Cheallaigh Aisling Ní, Fascione Martin A, Miller Gavin J

机构信息

School of Chemical & Physical Sciences and Centre for Glycoscience, Keele University Keele Staffordshire ST5 5BG UK

Department of Chemistry, University of York York YO10 5DD UK.

出版信息

RSC Chem Biol. 2025 Mar 25. doi: 10.1039/d5cb00026b.

DOI:10.1039/d5cb00026b

PMID:40176969

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11959488/

Abstract

Nucleoside analogue therapeutics have a proven capability within drug discovery as antiviral and antineoplastic agents. However, their efficacy can be limited by poor cellular uptake, off target toxicity and low bioavailability. Glycosylation of pharmaceutical agents/natural products represents a strategically simple method to modulate pharmacological profiles. Herein, we explore biocatalytic glycosylation of nucleoside analogues. The activity of the nucleoside-specific 3'--glycosyltransferase AvpGT from sp. AVP053U2 is investigated toward a panel of both natural and clinically relevant purine and pyrimidine nucleoside analogues. AvpGT demonstrates broad substrate promiscuity, with glycosylation observed by HILIC-MS for 15 of 21 nucleosides tested. Of these, 12 nucleosides were successfully glycosylated on ≥25 μmol scale in 39-91% isolated yields, including four current therapeutics.

摘要

核苷类似物疗法在药物研发中作为抗病毒和抗肿瘤药物已被证明具有一定能力。然而，它们的疗效可能会受到细胞摄取不佳、脱靶毒性和低生物利用度的限制。药物/天然产物的糖基化是一种从策略上简单的调节药理学特性的方法。在此，我们探索核苷类似物的生物催化糖基化。研究了来自菌株AVP053U2的核苷特异性3'-糖基转移酶AvpGT对一系列天然和临床相关嘌呤和嘧啶核苷类似物的活性。AvpGT表现出广泛的底物选择性，通过亲水相互作用液相色谱-质谱法（HILIC-MS）观察到，在测试的21种核苷中有15种发生了糖基化。其中，12种核苷在≥25 μmol规模上成功进行了糖基化，分离产率为39-91%，包括四种目前的治疗药物。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8089/12135575/1a278565ed5b/d5cb00026b-f1.jpg

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使用一种具有底物宽泛性的细菌糖基转移酶对核苷类似物进行3'-β-糖基化修饰

3'--β-Glucosylation of nucleoside analogues using a promiscuous bacterial glycosyltransferase.

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