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Iron-Catalyzed Skeletal Conversion of Lathyrane to Premyrsinane <i>Euphorbia</i> Diterpenes and Their Cytotoxic Activities

Yao Xiao, Neng Wang, Lin‐Xi Wan, Xian‐Li Zhou, Xiaohuan Li, Feng Gao

2021Journal of Natural Products23 citationsDOI

Abstract

Two new premyrsinane-type diterpenes (2 and 3) as diastereomers were synthesized from lathyrane-type diterpene euphorbia factor L3 (1) for the first time via an efficient Fe(acac)3-catalyzed skeleton conversion process. This conversion features a biogenetically inspired strategy that relies on a concise reductive olefin coupling involving intramolecular Michael addition with free radicals. The structures of 2 and 3 were elucidated by a combination of the interpretation of their spectroscopic data and single-crystal X-ray diffraction analysis. The premyrsinane diterpenes 2 and 3 exhibited cytotoxic activity against the 4T1 breast cancer cell line, while the parent compound euphorbia factor L3 (1) was inactive. The current results not only confirmed the biogenetic relationship between lathyranes and premyrsinanes for the first time but also suggested a novel method for the preparation of naturally rare premyrsinane diterpenes with high bioactivity from the more abundant natural lathyrane diterpenes.

Topics & Concepts

DiterpeneStereochemistryOlefin fiberChemistryIntramolecular forceRadicalDiastereomerCancer cell linesCatalysisBiologyOrganic chemistryCancer cellCancerGeneticsBioactive Natural Diterpenoids ResearchPlant-based Medicinal Research
Iron-Catalyzed Skeletal Conversion of Lathyrane to Premyrsinane <i>Euphorbia</i> Diterpenes and Their Cytotoxic Activities | Litcius