Search results for " Polyunsaturated Alkamides"

showing 3 items of 3 documents

Acute activation of cannabinoid receptors by anandamide reduces gastrointestinal motility and improves postprandial glycemia in mice.

2015

International audience; The endocannabinoid system (ECS) is associated with an alteration of glucose homeostasis dependent on cannabinoid receptor-1 (CB1R) activation. However, very little information is available concerning the consequences of ECS activation on intestinal glucose absorption. Mice were injected intraperitoneally with anandamide, an endocannabinoid binding both CB1R and CB2R. We measured plasma glucose and xylose appearance after oral loading, gastrointestinal motility, and glucose transepithelial transport using the everted sac method. Anandamide improved hyperglycemia after oral glucose charge whereas glucose clearance and insulin sensitivity were impaired, pointing out so…

Blood GlucoseMaleIndolesCannabinoid receptorMESH : Piperidines[ SDV.AEN ] Life Sciences [q-bio]/Food and NutritionEndocrinology Diabetes and Metabolismmedicine.medical_treatmentMESH: EndocannabinoidsMESH : PyrazolesMESH : Receptors CannabinoidMicechemistry.chemical_compoundPiperidinesMESH : IndolesMESH: Receptors CannabinoidMESH: Reverse Transcriptase Polymerase Chain ReactionMESH : Arachidonic AcidsGlucose homeostasisMESH: Gastrointestinal TransitMESH: AnimalsReceptors CannabinoidMESH: IndolesReverse Transcriptase Polymerase Chain ReactionMESH : RatsMESH : Reverse Transcriptase Polymerase Chain ReactionAnandamidePostprandial PeriodEndocannabinoid systemMESH : Gastrointestinal MotilityPostprandialMESH: PiperidinesMESH: Postprandial PeriodMESH: Gastrointestinal MotilityRimonabantMESH : EndocannabinoidsMESH : Gastrointestinal Transitmedicine.medical_specialtyMESH: RatsPolyunsaturated AlkamidesMESH : MaleArachidonic AcidsMESH : Mice Inbred C57BLMESH : Rats WistarMESH: Mice Inbred C57BLInternal medicineMESH : MiceInternal MedicinemedicineAnimalsMESH: Arachidonic AcidsMESH : Polyunsaturated AlkamidesRats WistarGastrointestinal TransitMESH: MiceGastric emptyingMESH: Polyunsaturated AlkamidesGlucose transporterMESH: Rats WistarMESH : Blood GlucoseMESH: MaleRatsMice Inbred C57BL[SDV.AEN] Life Sciences [q-bio]/Food and NutritionEndocrinologychemistryHyperglycemiaMESH : HyperglycemiaMESH: Blood GlucosePyrazolesMESH : AnimalsCannabinoidMESH : Postprandial PeriodGastrointestinal MotilityMESH: Hyperglycemia[SDV.AEN]Life Sciences [q-bio]/Food and NutritionMESH: PyrazolesEndocannabinoids
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Plasma membrane and lysosomal localization of CB1 cannabinoid receptor are dependent on lipid rafts and regulated by anandamide in human breast cance…

2005

AbstractIn this report we show, by confocal analysis of indirect immunofluorescence, that the type-1 cannabinoid receptor (CB1R), which belongs to the family of G-protein-coupled receptors, is expressed on the plasma membrane in human breast cancer MDA-MB-231 cells. However, a substantial proportion of the receptor is present in lysosomes. We found that CB1R is associated with cholesterol- and sphyngolipid-enriched membrane domains (rafts). Cholesterol depletion by methyl-β-cyclodextrin (MCD) treatment strongly reduces the flotation of the protein on the raft-fractions (DRM) of sucrose density gradients suggesting that CB1 raft-association is cholesterol dependent. Interestingly binding of …

CB1 receptorCannabinoid receptorMESH: Membrane MicrodomainsMESH: Receptor Cannabinoid CB1Biochemistrychemistry.chemical_compoundRaftsMESH: Cholesterol0302 clinical medicineReceptor Cannabinoid CB1Structural BiologyReceptorLipid raft0303 health sciencesChemistrybeta-CyclodextrinsAnandamideEndocannabinoid system3. Good healthCell biologyCholesterollipids (amino acids peptides and proteins)AgonistMESH: beta-CyclodextrinsMESH: Cell Line TumorPolyunsaturated Alkamidesmedicine.drug_classBiophysicsBreast NeoplasmsArachidonic Acids03 medical and health sciencesMembrane MicrodomainsCell Line TumorGeneticsmedicineMESH: Arachidonic AcidsHumansMolecular Biology030304 developmental biologyG protein-coupled receptorMESH: HumansMESH: Polyunsaturated AlkamidesCell Membrane[SDV.BBM.BM]Life Sciences [q-bio]/Biochemistry Molecular Biology/Molecular biologyAnandamideCell BiologyCaveolin 1LysosomesIntracellular traffickingMESH: Breast Neoplasms030217 neurology & neurosurgeryMESH: Cell MembraneMESH: LysosomesEndocannabinoids
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Inhibition by Anandamide and Synthetic Cannabimimetics of the Release of [3H]d-Aspartate and [3H]GABA from Synaptosomes Isolated from the Rat Hippoca…

2004

Cannabinoids (CB) can act as retrograde synaptic mediators of depolarization-induced suppression of inhibition or excitation in hippocampus. This mechanism may underlie the impairment of some cognitive processes produced by these compounds, including short-term memory formation in the hippocampus. In this study, we investigated several compounds known to interact with CB receptors, evaluating their effects on K +-evoked release of [ 3H]d-aspartate ([ 3H]d-ASP) and [ 3H]GABA from superfused synaptosomes isolated from the rat hippocampus. [ 3H]d-ASP and [ 3H]GABA release were inhibited to different degrees by the synthetic cannabinoids WIN 55,212-2; CP 55,940, and arachidonyl-2′- chloroethyla…

MaleCannabinoid receptorSettore BIO/14 - FARMACOLOGIAPolyunsaturated Alkamidesmedicine.medical_treatmentHippocampusArachidonic AcidsPharmacologyHippocampal formationDepolarization-induced suppression of inhibitionHippocampusBiochemistryCellular and Molecular Neurosciencechemistry.chemical_compoundglutamate releasemedicineAnimalsRats WistarCannabinoidgamma-Aminobutyric AcidCannabinoid Receptor AgonistsAspartic AcidCannabinoidsChemistryGeneral MedicineAnandamideCyclohexanolsgaba releaseEndocannabinoid systemRatsKineticsnervous systemBiochemistryAnimals Arachidonic Acids Aspartic Acid Calcium Cannabinoids Capsaicin Cyclohexanols gamma-Aminobutyric Acid Hippocampus Kinetics Polyunsaturated Alkamides Potassium Rats Receptors Cannabinoid SynaptosomesPotassiumCalciumlipids (amino acids peptides and proteins)CannabinoidCapsaicinCapsazepineEndocannabinoidsSynaptosomesNeurochemical Research
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