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Biomimetic Synthesis of an Antiviral Cinnamoylphloroglucinol Collection from <i>Cleistocalyx operculatus</i>: A Synthetic Strategy Based on Biogenetic Building Blocks

Jie Wang, Jian‐Guo Song, Dong‐Lin Zhong, Zhi‐Zhang Duan, Zijian Peng, Wei Tang, Qiao‐Yun Song, Xiao‐Jun Huang, Lijun Hu, Ying Wang, Wen‐Cai Ye

2023Angewandte Chemie International Edition22 citationsDOI

Abstract

A synthetic strategy based on biogenetic building blocks for the collective and divergent biomimetic synthesis of cleistoperlones A-F, a cinnamoylphloroglucinol collection discovered from Cleistocalyx operculatus, has been developed. These syntheses proceeded successfully in only six to seven steps starting from commercially available 1,3,5-benzenetriol and involving oxidative activation of stable biogenetic building blocks as a crucial step. Key features of the syntheses include a unique Michael addition/ketalization/1,6-addition/enol-keto tautomerism cascade reaction for the construction of the dihydropyrano[3,2-d]xanthene tetracyclic core of cleistoperlones A and B, and a rare inverse-electron-demand hetero-Diels-Alder cycloaddition for the establishment of benzopyran ring in cleistoperlones D-F. Moreover, cleistoperlone A exhibited significant antiviral activity against acyclovir-resistant strains of herpes simplex virus type 1 (HSV-1/Blue and HSV-1/153).

Topics & Concepts

ChemistryCombinatorial chemistryStereochemistryEnolCycloadditionTautomerBenzopyranBiomimetic synthesisRing (chemistry)Organic chemistryCatalysisSynthetic Organic Chemistry MethodsSynthesis of Organic CompoundsSynthesis and Reactions of Organic Compounds
Biomimetic Synthesis of an Antiviral Cinnamoylphloroglucinol Collection from <i>Cleistocalyx operculatus</i>: A Synthetic Strategy Based on Biogenetic Building Blocks | Litcius