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

Overview

Journal ACS Omega

Publisher American Chemical Society

Specialty Chemistry

Date 2024 Nov 18

PMID 39554450

Authors

Thitiphong Khamkhenshorngphanuch

Pitchayathida Mee-Udorn

Maleeruk Utsintong

Chutima Thepparit

Nitipol Srimongkolpithak

Sewan Theeramunkong

Affiliations

Soon will be listed here.

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.

Citing Articles

Synthesis and Modification of Cordycepin-Phosphoramidate ProTide Derivatives for Antiviral Activity and Metabolic Stability.

Thiraporn A, Tiyasakulchai T, Khamkhenshorngphanuch T, Hoarau M, Thiabma R, Onnome S ACS Bio Med Chem Au. 2025; 5(1):89-105.

PMID: 39990944 PMC: 11843340. DOI: 10.1021/acsbiomedchemau.4c00071.

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