RESUMEN
Cucurbitacins are triterpene bioactive constituents of natural products, particularly in the Cucurbitaceae plant family. The presence of cucurbitacins in seeds of the Cucurbita genus (pumpkin) has been only little studied. In this work, the content of cucurbitacins B, D, and E in seed oils from three cucurbits (Cucurbita moschata Duch, Cucurbita pepo Linn, and Cucurbita maxima Linn) was studied. An analytical method based on HPLC-DAD for the detection and quantification of these three cucurbitacins in seed oils was developed and validated according to ICH guidelines. The method showed good linearity, accuracy, and precision for the simultaneous quantification of cucurbitacins B, D, and E using C.moschata seed oil as a reference. When applied to C.pepo and C.maxima seed oils, cucurbitacin B and D were quantified but to a lesser extent. This is the first report of a simple, repeatable, and reproducible analytical tool to identify cucurbitacins in oilseeds from Cucurbita spp.
RESUMEN
The aryl hydrocarbon receptor (AhR) is a transcription factor deeply implicated in health and diseases. Historically identified as a sensor of xenobiotics and mainly toxic substances, AhR has recently become an emerging pharmacological target in cancer, immunology, inflammatory conditions, and aging. Multiple AhR ligands are recognized, with plant occurring flavonoids being the largest group of natural ligands of AhR in the human diet. The biological implications of the modulatory effects of flavonoids on AhR could be highlighted from a toxicological and environmental concern and for the possible pharmacological applicability. Overall, the possible AhR-mediated harmful and/or beneficial effects of flavonoids need to be further investigated, since in many cases they are contradictory. Similar to other AhR modulators, flavonoids commonly exhibit tissue, organ, and species-specific activities on AhR. Such cellular-context dependency could be probably beneficial in their pharmacotherapeutic use. Flavones, flavonols, flavanones, and isoflavones are the main subclasses of flavonoids reported as AhR modulators. Some of the structural features of these groups of flavonoids that could be influencing their AhR effects are herein summarized. However, limited generalizations, as well as few outright structure-activity relationships can be suggested on the AhR agonism and/or antagonism caused by flavonoids.
Asunto(s)
Flavonoides/metabolismo , Receptores de Hidrocarburo de Aril/metabolismo , Animales , Humanos , Isoflavonas/metabolismo , Fitoquímicos/metabolismo , Polifenoles/metabolismo , Factores de Transcripción/metabolismoRESUMEN
A quantitative structure-activity relationship (QSAR) study of the 2,2-diphenyl-l-picrylhydrazyl (DPPHâ¢) radical scavenging ability of 1373 chemical compounds, using DRAGON molecular descriptors (MD) and the neural network technique, a technique based on the multilayer multilayer perceptron (MLP), was developed. The built model demonstrated a satisfactory performance for the training ( R 2 = 0.713 ) and test set ( Q ext 2 = 0.654 ) , respectively. To gain greater insight on the relevance of the MD contained in the MLP model, sensitivity and principal component analyses were performed. Moreover, structural and mechanistic interpretation was carried out to comprehend the relationship of the variables in the model with the modeled property. The constructed MLP model was employed to predict the radical scavenging ability for a group of coumarin-type compounds. Finally, in order to validate the model's predictions, an in vitro assay for one of the compounds (4-hydroxycoumarin) was performed, showing a satisfactory proximity between the experimental and predicted pIC50 values.