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The central GLP-1: implications for food and drug rewardNovel Small Molecule Agonist of TGR5 Possesses Anti-Diabetic Effects but Causes Gallbladder Filling in MiceGLP-1 released to the mesenteric lymph duct in mice: effects of glucose and fat.The CNS glucagon-like peptide-2 receptor in the control of energy balance and glucose homeostasisDuodenal enteroendocrine I-cells contain mRNA transcripts encoding key endocannabinoid and fatty acid receptors.The Peutz-Jeghers kinase LKB1 suppresses polyp growth from intestinal cells of a proglucagon-expressing lineage in miceA tripeptide Diapin effectively lowers blood glucose levels in male type 2 diabetes mice by increasing blood levels of insulin and GLP-1.Lipid-rich diet enhances L-cell density in obese subjects and in mice through improved L-cell differentiationThe effect of gum chewing on blood GLP-1 concentration in fasted, healthy, non-obese men.Role of gut nutrient sensing in stimulating appetite and conditioning food preferences.Synthetic small molecule GLP-1 secretagogues prepared by means of a three-component indole annulation strategyChromanol 293B, an inhibitor of KCNQ1 channels, enhances glucose-stimulated insulin secretion and increases glucagon-like peptide-1 level in miceEffect of L-Tryptophan and L-Leucine on Gut Hormone Secretion, Appetite Feelings and Gastric Emptying Rates in Lean and Non-Diabetic Obese Participants: A Randomized, Double-Blind, Parallel-Group Trial.Plasma insulin profiles after subcutaneous injection: how close can we get to physiology in people with diabetes?A novel anti-inflammatory role of GPR120 in intestinal epithelial cells.Incretin hormones and the satiation signal.Mechanisms for the cardiovascular effects of glucagon-like peptide-1.Altered expression of uncoupling protein 2 in GLP-1-producing cells after chronic high glucose exposure: implications for the pathogenesis of diabetes mellitus.Grape-seed procyanidins modulate cellular membrane potential and nutrient-induced GLP-1 secretion in STC-1 cells.The G protein-coupled receptor family C group 6 subtype A (GPRC6A) receptor is involved in amino acid-induced glucagon-like peptide-1 secretion from GLUTag cellsSomatostatin receptor 5 and cannabinoid receptor 1 activation inhibit secretion of glucose-dependent insulinotropic polypeptide from intestinal K cells in rodents.The short chain fatty acid propionate stimulates GLP-1 and PYY secretion via free fatty acid receptor 2 in rodents.COMPARATIVE GUT PHYSIOLOGY SYMPOSIUM: Comparative physiology of glucagon-like peptide-2: Implications and applications for production and health of ruminants.The gut as a sensory organ.Why is it so difficult to measure glucagon-like peptide-1 in a mouse?Pharmacological inhibition of diacylglycerol acyltransferase-1 and insights into postprandial gut peptide secretion.Mathematical Modelling of Glucose-Dependent Insulinotropic Polypeptide and Glucagon-like Peptide-1 following Ingestion of Glucose.Resistant maltodextrin or fructooligosaccharides promotes GLP-1 production in male rats fed a high-fat and high-sucrose diet, and partially reduces energy intake and adiposity.Evaluation of casein & whey protein hydrolysates as well as milk fermentates from Lactobacillus helveticus for expression of gut hormones.Gastric inhibitory polypeptide immunoneutralization attenuates development of obesity in mice.The role of beta cell heterogeneity in islet function and insulin release.Targeting the intestinal L-cell for obesity and type 2 diabetes treatment
P2860
Q21129358-93B4FCFC-5690-4F82-96FB-0B9F05772DD5Q28547520-01530906-46DF-4F7C-8D0E-D21C10845A75Q33745485-E648C7EC-7542-4BEF-9980-6AA25D30A03DQ34201215-BD74D950-F521-452E-8E1D-E440A05E8FA3Q34372605-22B93E1C-6460-400D-A594-85CAEAB6B7ECQ34424179-AD4DDBB3-B0D2-4870-8631-19DB09FF032EQ35080438-9C2B146B-3957-43DE-9E2A-CBA2D7123B54Q35693608-C4F094D0-1FDF-4AE6-B40F-9038642FB03BQ35987870-DEBE3A67-3138-4138-9CC3-CE58358E9BBAQ35994290-5DDB01C4-7823-4D69-8124-929B074716A5Q36063472-3A23152B-4C6A-4BE1-A902-2498693876A2Q36106632-2ADD1F04-A5ED-4355-BD11-ADBB2DFB6343Q36201039-233467F7-AB2D-4A5A-9F8E-0DB283F6DC7DQ36554243-E37776F8-0337-4875-8BCD-9941162695DEQ36775742-61857BB6-01A0-448E-996A-7995EBDDA4A9Q38072203-DB269D3A-CF41-4ECA-AB82-9682B81AF121Q38589032-1331CDBE-DEA1-46FF-A553-666E53B6396EQ38806056-0866FE9C-EEC8-4E52-B625-DC7B90B0D152Q39039552-EA69000E-8A63-42F5-ADCE-B13E065170A9Q39220481-EF2734ED-DD0E-4863-80E6-1559D2AB8C74Q41848845-B8E1A5A5-3590-40F2-B95A-42104140EEDFQ42090677-D5006C04-6229-4FB5-A145-D7C022676336Q42477615-B78F77E3-748D-46BF-A3A6-860B8CB1231DQ45894561-17BC5DD1-FE3F-4B49-973D-C46DEDD524F7Q46341700-3FDF1CA4-3815-427E-AA0D-77A03345086AQ47156353-FDDE7C24-FF05-465A-9528-FA0D8519B017Q47901815-68D4F621-2333-4E78-89A1-56D241F08276Q48048190-40F70A86-BE37-405A-982A-CBF4C0F55A5EQ49743454-21DE0121-4AF5-4C33-8DA0-0DAD643186D9Q53662159-242A370F-06F4-45E6-9D7A-1AE695389E90Q55216417-B9C559A2-9600-4585-93BE-19A5623D32C9Q58447645-EC5BD626-9026-4134-AEDA-728FDF989753
P2860
description
article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
@sq
artículo científico
@es
name
Nutrient detection by incretin hormone secreting cells
@en
Nutrient detection by incretin hormone secreting cells.
@nl
type
label
Nutrient detection by incretin hormone secreting cells
@en
Nutrient detection by incretin hormone secreting cells.
@nl
prefLabel
Nutrient detection by incretin hormone secreting cells
@en
Nutrient detection by incretin hormone secreting cells.
@nl
P2860
P921
P1476
Nutrient detection by incretin hormone secreting cells
@en
P2093
Eleftheria Diakogiannaki
P2860
P304
P356
10.1016/J.PHYSBEH.2011.12.001
P407
P577
2011-12-13T00:00:00Z
2012-06-06T00:00:00Z