A phytochemical investigation of the leaves of the medicinal plant Isodon rubescens led to the isolation of the two new degraded abietane lactone diterpenoids rubesanolides F (1) and G (2). Their structures were elucidated based on the analyses of the HRESIMS and 1D/2D NMR spectral data, and their absolute configurations were determined by ECD spectrum calculations and X-ray single crystal diffraction methods. Compounds 1 and 2, with a unique γ-lactone subgroup between C-8 and C-20, were found to form a carbonyl carbon at C-13 by removal of the isopropyl group in an abietane diterpene skeleton. Rubesanolide G (2) is a rare case of abietane that possesses a cis-fused configuration between rings B and C. The two isolates were evaluated for their biological activities against two cancer cell lines (A549 and HL60), three fungal strains (Candida alba, Aspergillus niger and Rhizopus nigricans) and three bacterial strains (Escherichia coli, Staphylococcus aureus and Bacillus subtilis).
We report the isolation of a novel diterpene, designated as `amethane', from Isodon amethystoides (Lamiaceae). The diterpene [amethinol A; systematic name: (4aR,4bR,7R,10aS)-4b,7-dihydroxy-7-isopropyl-1,1-dimethyl-9-oxododecahydrobenzo[a]azulene-4a(2H)-carboxylic acid], possesses a unique skeleton containing a six/five/seven-membered tricyclic system. Intermolecular O-H...O close contacts were found to the carboxyl, carbonyl and hydroxy groups, connecting molecules into a two-dimensional structure. A possible biosynthetic pathway has been proposed. In addition, the compound was evaluated for its biological activities against different disease targets, and was found to significantly attenuate RORγt-dependent autoimmune responses.
The present study was performed to investigate the chemical components of the branches and leaves of Isodon rubescens. Two 6,7-seco-spiro-lacton-ent-kauranoids were obtained. Based on the extensive spectroscopic analyses, their structures were elucidated as 6-epi-11-O-acetylangustifolin (1) and 11-O-acetylangustifolin (2), respectively. The structure of 2 was further comfirmed by X-ray crystallography analysis. MTT method was employed to evaluate their cytotoxity against human lung cancer cell lines A549 and leukemia cell lines K562.
Oxidative functionalization of indoles is one of the
most widely
used approaches to exploit the synthetic utility of indoles. In continuation
of our research interest in the green oxidation of indoles, we further
explore the oxidation of indoles with oxone–halide and discover
that the protecting group on the nitrogen of indoles plays a decisive
role in controlling the pathways of indole oxidation with oxone–halide.
An electron-withdrawing group on the nitrogen of indoles (N-EWG) enables
C2 halogenation with stoichiometric halide, while C3 halogenation
could be selectively achieved by using stoichiometric halide without
dependence on the electronic property of the protecting group on the
indole nitrogen. Different from our previous results obtained by using
catalytic halide, these findings lead to the development of an environmentally
friendly, efficient, and mild protocol for access to 2- or 3-haloindoles
(chloro and bromo). As compared to the previous synthetic methods
for 2-/3-haloindoles, our method exploits the in situ-generated reactive
halogenating species from oxone–halide for halogenation of
indoles and thus eliminates the use of stoichiometric halogenating
agents and the production of toxic and hazardous organic byproducts
derived from oxidants.
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