about
Grape-seed procyanidins act as antiinflammatory agents in endotoxin-stimulated RAW 264.7 macrophages by inhibiting NFkB signaling pathwayIdentification of novel human dipeptidyl peptidase-IV inhibitors of natural origin (part I): virtual screening and activity assaysIdentification of novel human dipeptidyl peptidase-IV inhibitors of natural origin (Part II): in silico prediction in antidiabetic extractsIdentification of PPARgamma partial agonists of natural origin (I): development of a virtual screening procedure and in vitro validationIdentification of a nutrient-sensing transcriptional network in monocytes by using inbred rat models on a cafeteria diet.Acute selective bioactivity of grape seed proanthocyanidins on enteroendocrine secretions in the gastrointestinal tract.Dietary procyanidins enhance transcriptional activity of bile acid-activated FXR in vitro and reduce triglyceridemia in vivo in a FXR-dependent manner.Procyanidins and inflammation: molecular targets and health implications.Grape Seed Procyanidin Extract Improves Insulin Production but Enhances Bax Protein Expression in Cafeteria-Treated Male Rats.Procyanidin effects on adipocyte-related pathologies.Defining Conditions for Optimal Inhibition of Food Intake in Rats by a Grape-Seed Derived Proanthocyanidin Extract.Procyanidins improve some disrupted glucose homoeostatic situations: an analysis of doses and treatments according to different animal models.Procyanidins and their healthy protective effects against type 2 diabetes.Short-term treatment with oleoyl-oestrone in liposomes (Merlin-2) strongly reduces the expression of the ob gene in young rats.Effects of flavanols on the enteroendocrine system: Repercussions on food intake.Subchronic treatment with grape-seed phenolics inhibits ghrelin production despite a short-term stimulation of ghrelin secretion produced by bitter-sensing flavanols.Antioxidant effects of proanthocyanidin-rich natural extracts from grape seed and cupuassu on gastrointestinal mucosa.Procyanidin B2 inhibits inflammasome-mediated IL-1β production in lipopolysaccharide-stimulated macrophages.Effects of flavonoids on intestinal inflammation, barrier integrity and changes in gut microbiota during diet-induced obesity.Grape-seed procyanidins modulate cellular membrane potential and nutrient-induced GLP-1 secretion in STC-1 cells.Gallic acid is an active component for the anticarcinogenic action of grape seed procyanidins in pancreatic cancer cells.Grape seed procyanidin extract modulates proliferation and apoptosis of pancreatic beta-cells.Procyanidins modify insulinemia by affecting insulin production and degradation.Enhanced anti-inflammatory effect of resveratrol and EPA in treated endotoxin-activated RAW 264.7 macrophages.Additive, antagonistic, and synergistic effects of procyanidins and polyunsaturated fatty acids over inflammation in RAW 264.7 macrophages activated by lipopolysaccharide.Procyanidin dimer B1 and trimer C1 impair inflammatory response signalling in human monocytes.Dietary catechins and procyanidins modulate zinc homeostasis in human HepG2 cells.Development of a coculture system to evaluate the bioactivity of plant extracts on pancreatic β-cells.Grape-seed procyanidins modulate inflammation on human differentiated adipocytes in vitro.In vivo, in vitro, and in silico studies of Cu/Zn-superoxide dismutase regulation by molecules in grape seed procyanidin extract.Inhibitory effects of grape seed procyanidins on foam cell formation in vitro.Dietary procyanidins lower triglyceride levels signaling through the nuclear receptor small heterodimer partner.Acutely administered grape-seed proanthocyanidin extract acts as a satiating agent.Grape seed procyanidins prevent oxidative injury by modulating the expression of antioxidant enzyme systems.Antigenotoxic effect of grape seed procyanidin extract in Fao cells submitted to oxidative stress.In silico identification of red wine catechin binding sites on human and rat serotransferrins.Grape seed procyanidins inhibit the expression of metallothione in genes in human HepG2 cells.Differential effects of grape-seed derived procyanidins on adipocyte differentiation markers in different in vivo situationsOligomers of grape-seed procyanidin extract activate the insulin receptor and key targets of the insulin signaling pathway differently from insulin.Metabolic fate of glucose on 3T3-L1 adipocytes treated with grape seed-derived procyanidin extract (GSPE). Comparison with the effects of insulin.
P50
Q28222550-D6DBB6DF-3250-4E02-990C-8EB84F2340B3Q28483681-48E435EB-E61B-459D-B129-5B54DAFC3E92Q28483936-CE581BFC-FC24-4425-A7CE-8E4663C011B3Q28485402-0F9FD85E-8512-4A9D-8F3A-0AE5C00687B5Q30391337-43814D4D-ED78-4E40-8D70-16EA6C7AC09DQ33811018-259ED9B3-3997-40DC-B086-C6240266CBE9Q34079471-394501F8-D1A6-4780-8857-B4E0D6AA9FC8Q34268345-EA87E964-0C4D-45E2-A785-471318491216Q36556736-7EC374F4-8137-40ED-8037-E1B35E6279BCQ36586055-53EF38BC-A91A-48F4-8702-05C2A7DD4B66Q37373991-8F33D2BE-AAC4-4E05-93B9-6E351A58243BQ38005202-5F5E495E-5C3A-4F7E-8EF6-AD4F6FC957C0Q38253234-14BE87D3-28DC-4707-A3E0-5543236B40B9Q38343111-6A1254AF-8A76-45BB-A03E-90BCEA8370BEQ38525666-BCE243F6-1E1D-4E1B-87B9-076FCEE4BD2BQ38758118-60EF04EE-384E-4D17-89A5-570BA39F5F79Q38920662-95D43644-BB22-4DE2-8148-307D37A1B96AQ38941884-835CC78F-A42B-4B56-9351-2DE6B2024A2FQ39007546-93D20880-5B8B-4B6F-8443-57DB3393D1BFQ39039552-C88E92C0-A72E-4ABE-B1C4-9DB9E689F44CQ39044810-BC5F857B-A386-4E37-B81A-D75D9F47186DQ39221273-81542DEB-0CE9-4C52-A2AF-C399E25CED4EQ39374763-0B50BDBA-A5D0-48E9-AB07-FC9FDCE68F85Q39417166-CD3ED89B-C131-4997-BC63-9865D0FC2EC3Q39428690-B512BEA9-65EC-478B-9E5A-7F8BD7E38F78Q39575955-B21873F7-A94B-43BE-A7E5-F287905CC875Q39703671-F4207782-17CB-4FF8-B7AB-E60FB9A2E49BQ39724458-BCF43E93-0E56-449F-A5F7-81D07FC8FBD0Q39832116-0A5DF0D5-F63D-4A16-AE46-E586D4EA5126Q39868865-E7C1FF72-298E-4B12-A08D-F0EF3F132EC0Q39871873-FAE4AE54-69A7-422F-B51E-45C371A9A60FQ39948244-008432A2-9D0F-4335-BC9D-ECD876208945Q40379068-BC27DBBF-9626-4B15-B81E-465C9BAD7FF5Q40395941-0CFBB668-3A3D-4BBE-BCC2-DF4A614B2F2BQ40583332-E490F91B-FDE1-4774-8D54-B1D82C8D9B5FQ40620789-A228DAAB-4437-4ACB-8C08-52D6518D7D6FQ40621132-A5CA81AB-79B0-4B0E-AFBF-C3D887D58F5EQ40621772-F5798F5D-C104-47C9-B766-F54F1D2863EBQ42799596-C310A75F-5BFA-4CA7-9539-443D266A7800Q42812118-1CC76927-5D38-4528-ADD7-B60ED8EE24BD
P50
description
hulumtuese
@sq
researcher
@en
ricercatrice
@it
wetenschapper
@nl
հետազոտող
@hy
name
Anna Ardévol
@ast
Anna Ardévol
@en
Anna Ardévol
@es
Anna Ardévol
@nl
Anna Ardévol
@sl
type
label
Anna Ardévol
@ast
Anna Ardévol
@en
Anna Ardévol
@es
Anna Ardévol
@nl
Anna Ardévol
@sl
altLabel
Ardèvol A. Ardevol A
@en
prefLabel
Anna Ardévol
@ast
Anna Ardévol
@en
Anna Ardévol
@es
Anna Ardévol
@nl
Anna Ardévol
@sl
P214
P106
P1153
6603710763
P2038
Anna_Ardevol
P21
P214
P31
P496
0000-0003-0156-7538
P735
P7859
viaf-305861013