Synthesis of Polyoxygenated Tropolones and Their Antiviral Activity Against Hepatitis B Virus and Herpes Simplex Virus-1

Overview

Journal Chemistry

Specialty Chemistry

Date 2022 Jan 5

PMID 34984767

Citations 2

Authors

Daniel V Schiavone

Diana M Kapkayeva

Qilan Li

Molly E Woodson

Andreu Gazquez Casals

Lynda A Morrison

John E Tavis

Ryan P Murelli

Affiliations

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Abstract

Polyoxygenated tropolones possess a broad range of biological activity, and as a result are promising lead structures or fragments for drug development. However, structure-function studies and subsequent optimization have been challenging, in part due to the limited number of readily available tropolones and the obstacles to their synthesis. Oxidopyrylium [5+2] cycloaddition can effectively generate a diverse array of seven-membered ring carbocycles, and as a result can provide a highly general strategy for tropolone synthesis. Here, we describe the use of 3-hydroxy-4-pyrone-based oxidopyrylium cycloaddition chemistry in the synthesis of functionalized 3,7-dimethoxytropolones, 3,7-dihydroxytropolones, and isomeric 3-hydroxy-7-methoxytropolones through complementary benzyl alcohol-incorporating procedures. The antiviral activity of these molecules against herpes simplex virus-1 and hepatitis B virus is also described, highlighting the value of this approach and providing new structure-function insights relevant to their antiviral activity.

Citing Articles

In vitro evaluation of tropolone absorption, metabolism, and clearance.

Woodson M, Mottaleb M, Murelli R, Tavis J Antiviral Res. 2023; 220:105762.

PMID: 37996012 PMC: 10843707. DOI: 10.1016/j.antiviral.2023.105762.

Carbocycloaddition Strategies for Troponoid Synthesis.

Murelli R, Berkowitz A, Zuschlag D Tetrahedron. 2023; 130.

PMID: 36777111 PMC: 9910567. DOI: 10.1016/j.tet.2022.133175.

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