6533b82bfe1ef96bd128d7b6

RESEARCH PRODUCT

In vitro bioaccessibility, transepithelial transport and antioxidant activity of Urtica dioica L. phenolic compounds in nettle based food products

Gianpiero BonettiPaola TedeschiGiuseppe MecaDavide Bertelli Manes Jordi DamonVincenzo BrandoliniAnnalisa Maietti Manes

subject

Antioxidantfood.ingredientFree Radicalsmedicine.medical_treatmentphenolicsBiological AvailabilityAntioxidantsNOchemistry.chemical_compoundRutinnettle phenolics HPLC-MS0404 agricultural biotechnologyfoodSuperoxidesmedicineHumansFood scienceUrtica dioicaUrticaUrtica dioicaBiological Transport04 agricultural and veterinary sciencesGeneral Medicinenettle040401 food scienceCaffeoylmalic acidBioavailabilityHPLC-MSBiochemistrychemistryFermentationCaco-2 CellsDigestionFood AnalysisFood Science

description

Nettle (Urtica dioica L.) is a well-known plant with a wide historical background use of stems, roots and leaves. Nettle leaves are an excellent source of phenolic compounds, principally 3-caffeoylquinic acid (3-CQA), caffeoylmalic acid (CMA) and rutin. The aim of this work was to evaluate the bioaccessibility (BAC), the bioavailability (BAV) and the antioxidant activity of nettle phenolic compounds present in foods and supplements. The BAC of nettle phenolics was evaluated with an in vitro dynamic digestion of real food matrices: the type of food matrix and chemical characteristic affected the kinetics of release and solubilization, with the highest BAC after duodenal digestion. A study of duodenal trans epithelial transport evidenced low bioavailability of native forms of 3-CQA, CMA and rutin. Simulation of colonic metabolism confirmed that phenolic compounds are fermented by gut microflora, confirming the need for further investigations on the impact of phenolic compounds at the large intestine level. Photochemiluminescence assay of the simulated digestion fluids demonstrated that ingestion of Urtica based foods contributes to create an antioxidant environment against superoxide anion radicals in the entire gastrointestinal tract (GIT).

yearjournalcountryeditionlanguage
2016-10-08
10.1039/c6fo01096bhttps://hdl.handle.net/11380/1110932