Search Results (4)

Therapeutic strategies that fine-tune epithelial inflammatory responses are highly sought after in respiratory and mucosal disorders, but few molecules selectively target these pathways. Vernoniastrum migeodii (S. Moore) Isawumi (Asteraceae) represents a chemically promising but understudied source of bioactive small molecules. This study aimed to define the metabolite profile of V. migeodii and evaluate the modulation of inflammatory epithelial signaling of the constituents. From the methanolic extract of V. migeodii, five germacranolide sesquiterpenes, vernolide (1), 3′-hydroxylvernolide (2), pectorolide (3), 4′-hydroxypectorolide-14-O-acetate (4) and 4′-hydroxypectorolide (5), together with (6S,9R)-vomifoliol (6), eucarvone (7), luteolin (8), and luteolin-7-O-glucoside (9) were isolated by multiple chromatographic separations. The structures were determined by comprehensive 1D and 2D NMR spectroscopy. Isolated compounds 1 to 9 together with previously reported steroids (10–17) and tripeptide (18) were evaluated in LPS-activated A549 cells by quantitative PCR for interleukin-6 (IL6), interleukin-1β (IL1β), and prostaglandin-endoperoxide synthase 2 (PTGS2) and by enzyme-linked immunosorbent assay (ELISA) for IL-6 and IL-8. Compounds 2, 7, steroids 10–17 and aurantiamide acetate (18) reduced IL6 mRNA relative to the LPS control, while (6S,9R)-vomifoliol (6) increased IL-6 and elevated IL-8. In the assay IL1β and PTGS2 transcripts were not significantly altered. These findings highlight the potential of V. migeodii metabolites as modulators of epithelial inflammatory pathways. Combining chemical and biological evidence provides a clear basis for structure–activity- and pathway-focused studies. Full article

Background:Asarum heterotropoides and Asarum sieboldii are commonly used in traditional Chinese medicine. However, little is known about how they differ in terms of essential oil (EO) and ethanol extract (EE) content and composition. Moreover, the effect of various geographical locations on the essential oil (EO), ethanol extract (EE), and asarinin content of different Asarum samples remains unknown. We tested four root-drying methods, i.e., soil removal and shade drying (P1), water washing and shade drying (P2), and water washing and drying at 30 °C (P3) and 40 °C (P4). We used LC-MS and GC-MS to investigate these differences. We also investigated the pharmacodynamic effects of EO and EE. Results: Overall, the EO, EE and asarinin contents of the analysed samples were 19.21–51.53 μL.g⁻¹, 20.00–45.00 μL.g⁻¹, and 1.268–2.591 mg.g⁻¹, respectively. P1 treatment yielded the lowest volatile oil content compared to the other three treatments. GC-MS analysis revealed 78 EO components. Among the six major EO components, eucarvone, 3,5-dimethoxytoluene, and methyl eugenol were higher in A. heterotropoides than in A. sieboldii. However, the latter had a higher myristicin content. LC-MS analysis identified 888 EE components in roots and leaves of A. heterotropoides and A. sieboldii; 317 differentially accumulated metabolites were identified. EO and EE showed a dose-dependent reduction in the degree of swelling and an increase in the inhibition rate of drug concentration on acetic acid writhing in mice. Asarum EO proved to be more effective than EE in the pharmacodynamic study. Conclusions: We conclude that Asarum species show inter- and intra-specific differences in EO and EE content and composition, which may influence the pharmacodynamics of Asarum root extracts. Full article

Bumble bees and honey bees are of vital importance for tomato pollination, although honey bees are less attracted to tomato flowers than bumble bees. Little is known about how tomato flower volatile compounds influence the foraging behaviors of honey bees and bumble bees. In this study, compounds of tomato flower volatiles were detected by gas chromatography–mass spectrometry. Electroantennography (EAG) and a dynamic two-choice olfactometer were used, respectively, to compare the differences of antennal and behavioral responses between Apis mellifera and Bombus terrestris towards selected volatile compounds. A total of 46 compounds were detected from the tomato flower volatiles. Of the 16 compounds tested, A. mellifera showed strong antennal responses to 3 compounds (1-nonanal, (+)-dihydrocarvone, and toluene) when compared with a mineral oil control, and B. terrestris showed 7 pronounced EAG responses (1,3-xylene, (+)-dihydrocarvone, toluene, piperitone, eucarvone, 1-nonanal, and β-ocimene). Additionally, 1-nonanal and (+)-dihydrocarvone elicited significant avoidance behavior of A. mellifera, but not of B. terrestris. In conclusion, bumble bees are more sensitive to the compounds of tomato flower volatiles compared to honey bees, and honey bees showed aversion to some compounds of tomato flower volatiles. The findings indicated that compounds of flower volatiles significantly influenced bee foraging preference for tomato. Full article

This note describes a novel reaction cascade in which a tosylhydrazone derivative of eucarvone undergoes a non-classical dimerization process under basic conditions. The key step in this sequence is a dipolar cycloaddition between a diazo species and a transient cyclopropene. A proposed mechanism for this sequence is presented that is supported by single crystal X-ray analysis of the resulting dimer. We believe this unique transformation is of note as it highlights a neat and efficient entry to complex polycyclic architectures containing an embedded pyrazoline moiety. Full article