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核苷二磷酸和三磷酸前药——一项无法解决的任务?

Nucleoside diphosphate and triphosphate prodrugs - An unsolvable task?

作者信息

Meier Chris

机构信息

Organic Chemistry, Department of Chemistry, Faculty of Sciences, Universität Hamburg, Hamburg, Germany.

出版信息

Antivir Chem Chemother. 2017 Dec;25(3):69-82. doi: 10.1177/2040206617738656. Epub 2017 Nov 3.

DOI:10.1177/2040206617738656
PMID:29096525
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5890512/
Abstract

In this review, our recent advances in the development of nucleoside di- and nucleoside triphosphate prodrugs is summarized. Previously, we had developed a successful membrane-permeable pronucleotide system for the intracellular delivery of nucleoside monophosphates as well, the so-called cycloSal-approach. In contrast to that work in which the delivery is initiated by a chemically driven hydrolysis reaction, for the di- and triphosphate delivery, an enzymatic trigger mechanism involving (carboxy)esterases had to be used. The other features of the new pronucleotide approaches are: (i) lipophilic modification was restricted to the terminal phosphate group leaving charges at the internal phosphate moieties and (ii) appropriate lipophilicity is introduced by long aliphatic residues within the bipartite prodrug moiety. The conceptional design of the di- and triphosphate prodrug systems will be described and the chemical synthesis, the hydrolysis properties, a structure-activity relationship and antiviral activity data will be discussed as well. The advantage of these new approaches is that all phosphorylation steps from the nucleoside analogue into the bioactive nucleoside triphosphate form can be bypassed in the case of the triphosphate prodrugs. Moreover, enzymatic processes like the deamination of nucleosides or nucleoside monophosphates which lead to catabolic clearance of the potential antivirally active compound can be avoided by the delivery of the higher phosphorylated nucleotides.

摘要

在本综述中,我们总结了核苷二磷酸和核苷三磷酸前药开发方面的最新进展。此前,我们还开发了一种成功的可透过细胞膜的前核苷酸系统,用于在细胞内递送核苷单磷酸,即所谓的环水杨酸方法。与通过化学驱动的水解反应启动递送的工作不同,对于二磷酸和三磷酸的递送,必须使用涉及(羧基)酯酶的酶促触发机制。新的前核苷酸方法的其他特点是:(i)亲脂性修饰仅限于末端磷酸基团,内部磷酸部分带有电荷;(ii)通过双部分前药部分内的长脂肪族残基引入适当的亲脂性。将描述二磷酸和三磷酸前药系统的概念设计,并讨论化学合成、水解特性、构效关系和抗病毒活性数据。这些新方法的优点是,在三磷酸前药的情况下,可以绕过从核苷类似物到生物活性核苷三磷酸形式的所有磷酸化步骤。此外,通过递送更高磷酸化的核苷酸,可以避免核苷或核苷单磷酸的脱氨等酶促过程,这些过程会导致潜在抗病毒活性化合物的分解代谢清除。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/49c5/5890512/49ed30b2cbc6/10.1177_2040206617738656-fig2.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/49c5/5890512/6c2af65c5cc8/10.1177_2040206617738656-fig7.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/49c5/5890512/5c82e0531a5e/10.1177_2040206617738656-fig8.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/49c5/5890512/493608ac9a94/10.1177_2040206617738656-fig1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/49c5/5890512/18ae12f7d791/10.1177_2040206617738656-fig9.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/49c5/5890512/1daf26b5565e/10.1177_2040206617738656-fig10.jpg
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