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磷酰胺前药阿昔洛韦单异构体的水解动力学研究及合成

Study of Hydrolysis Kinetics and Synthesis of Single Isomer of Phosphoramidate ProTide-Acyclovir.

作者信息

Khamkhenshorngphanuch Thitiphong, Mee-Udorn Pitchayathida, Utsintong Maleeruk, Thepparit Chutima, Srimongkolpithak Nitipol, Theeramunkong Sewan

机构信息

Thammasat University Research Unit in Drug, Health Product Development and Application (DHP-DA), Department of Pharmaceutical Sciences, Faculty of Pharmacy, Thammasat University, Pathum Thani 12120, Thailand.

Department of Pharmaceutical Sciences, Faculty of Pharmacy, Thammasat University, Pathum Thani 12120, Thailand.

出版信息

ACS Omega. 2024 Nov 1;9(45):45221-45231. doi: 10.1021/acsomega.4c06645. eCollection 2024 Nov 12.

Abstract

Acyclovir (ACV) is a vital treatment for herpes simplex (HSV) and varicella-zoster virus (VZV) infections that inhibit viral DNA polymerase. Phosphoramidate ProTides-ACV, a promising technology, circumvents the reliance on thymidine kinase (TK) for activation. Twelve novel single isomers of phosphoramidate ProTide-ACV were synthesized. Successful isomer separation was achieved, emphasizing the importance of single isomers in medical advancements. The enzymatic hydrolysis kinetics of the synthesized compounds were investigated by using carboxypeptidase Y (CPY). The results revealed a faster conversion for the isomer p- than for the p-diastereomer. Hydrolysis experiments confirmed steric hindrance effects, particularly with the -butyl and isopropyl groups. Molecular modeling elucidated the mechanisms of hydrolysis, supporting the results of the experiments. This research sheds light on the potential of phosphoramidate ProTides-ACV, bridging the gap in understanding their biological and metabolic properties, while supporting future investigations into anti-HSV activity. Preliminary screening revealed that three of the four single isomers demonstrated superior antiviral efficacy against wild-type HSV-1 compared to acyclovir, with isomer ultimately reducing the viral yield at 200 μM. These findings emphasize the importance of isolating racemic ACV-ProTides as pure single isomers for future drug development.

摘要

阿昔洛韦(ACV)是治疗单纯疱疹病毒(HSV)和水痘带状疱疹病毒(VZV)感染的重要药物,可抑制病毒DNA聚合酶。磷酰胺酯前药-阿昔洛韦是一项很有前景的技术,它规避了对胸苷激酶(TK)激活的依赖。合成了12种新型磷酰胺酯前药-阿昔洛韦的单一异构体。成功实现了异构体的分离,强调了单一异构体在医学进步中的重要性。使用羧肽酶Y(CPY)研究了合成化合物的酶促水解动力学。结果显示,异构体p-的转化速度比p-非对映异构体快。水解实验证实了空间位阻效应,特别是对于丁基和异丙基。分子建模阐明了水解机制,支持了实验结果。这项研究揭示了磷酰胺酯前药-阿昔洛韦的潜力,填补了对其生物学和代谢特性理解的空白,同时支持未来对抗HSV活性的研究。初步筛选显示,四种单一异构体中的三种对野生型HSV-1的抗病毒疗效优于阿昔洛韦,异构体最终在200μM时降低了病毒产量。这些发现强调了将外消旋ACV-前药分离为纯单一异构体用于未来药物开发的重要性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4187/11561759/a8bf3650ecd7/ao4c06645_0001.jpg

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