Increased expression of receptors for orexigenic factors in nodose ganglion of diet-induced obese rats
about
Role of central vagal 5-HT3 receptors in gastrointestinal physiology and pathophysiologyPPARγ in vagal neurons regulates high-fat diet induced thermogenesisCentral nervous system control of gastrointestinal motility and secretion and modulation of gastrointestinal functions.Bugs, guts and brains, and the regulation of food intake and body weightExpression of cannabinoid CB1 receptors by vagal afferent neurons: kinetics and role in influencing neurochemical phenotype.Propensity to high-fat diet-induced obesity in rats is associated with changes in the gut microbiota and gut inflammationA novel peripherally restricted cannabinoid receptor antagonist, AM6545, reduces food intake and body weight, but does not cause malaise, in rodentsLeptin resistance in vagal afferent neurons inhibits cholecystokinin signaling and satiation in diet induced obese rats.Gut feelings: the emerging biology of gut-brain communication.Effect of ghrelin receptor antagonist on meal patterns in cholecystokinin type 1 receptor null miceDiet-induced obesity leads to the development of leptin resistance in vagal afferent neurons.Evaluation of the synuclein-γ (SNCG) gene as a PPARγ target in murine adipocytes, dorsal root ganglia somatosensory neurons, and human adipose tissue.Biology's response to dieting: the impetus for weight regain.The role of gastrointestinal vagal afferent fibres in obesity.Changes in intestinal barrier function and gut microbiota in high-fat diet-fed rats are dynamic and region dependent.Influence of a long-term high-fat diet on ghrelin secretion and ghrelin-induced food intake in rats.Incretins and amylin: neuroendocrine communication between the gut, pancreas, and brain in control of food intake and blood glucose.Regulation of energy balance by a gut-brain axis and involvement of the gut microbiota.Chronic exposure to low dose bacterial lipopolysaccharide inhibits leptin signaling in vagal afferent neurons.Alcoholic vs non-alcoholic fatty liver in rats: distinct differences in endocytosis and vesicle trafficking despite similar pathologyPlasticity of gastrointestinal vagal afferent satiety signals.Mechanism of hyperphagia contributing to obesity in brain-derived neurotrophic factor knockout mice.The neurobiology of food intake in an obesogenic environment.Dietary conditions and highly palatable food access alter rat cannabinoid receptor expression and binding density.Combination of obesity and high-fat feeding diminishes sensitivity to GLP-1R agonist exendin-4.Peripheral Pathways in the Food-Intake Control towards the Adipose-Intestinal Missing Link.Plasticity in vagal afferent neurones during feeding and fasting: mechanisms and significance.Vagal afferent neurons in high fat diet-induced obesity; intestinal microflora, gut inflammation and cholecystokinin.Early postnatal overnutrition: potential roles of gastrointestinal vagal afferents and brain-derived neurotrophic factor.Relations between metabolic homeostasis, diet, and peripheral afferent neuron biology.Inhibitory neurotransmission regulates vagal efferent activity and gastric motility.Nutritional status-dependent endocannabinoid signalling regulates the integration of rat visceral information.The effects of bariatric surgery: will understanding its mechanism render the knife unnecessary?High fat diet attenuates glucose-dependent facilitation of 5-HT3 -mediated responses in rat gastric vagal afferents.Cholecystokinin activation of central satiety centers changes seasonally in a mammalian hibernator.Exposure to a high fat diet during the perinatal period alters vagal motoneurone excitability, even in the absence of obesity.Vagal plasticity the key to obesity.High fat diet and body weight have different effects on cannabinoid CB(1) receptor expression in rat nodose ganglia.Roux-en-Y gastric bypass reverses the effects of diet-induced obesity to inhibit the responsiveness of central vagal motoneurones.Prebiotic milk oligosaccharides prevent development of obese phenotype, impairment of gut permeability, and microbial dysbiosis in high fat-fed mice.
P2860
Q26852714-AAFFB797-B5FB-4C46-B798-BBB1C318EFC4Q28509162-C2544322-7AFA-470E-9559-B43BD6443C43Q30384107-CBA08239-D718-49D7-92F1-19A22BB82E1BQ33838142-6D032A50-2B05-4D2A-B39D-C1F999DBDC28Q33994763-9E387E8D-BC61-4E90-AA0A-D2D198F04314Q34085293-637A45AC-6A74-40B5-9B37-5524C5E580FFQ34140803-C5C09C0B-3762-4104-B6F4-9CF4DD624F35Q34193583-62935A26-EA08-4181-BD2B-50AD753F49A8Q34199959-FC3C4767-FE6C-4F40-9CC9-A93F974F7D8EQ34768615-0754E0DD-87D3-4649-90E8-2E1ABD635D1EQ35086800-1559258A-16D1-40E4-8AB8-95165827A254Q35163628-36CC32CC-689D-42DE-ADA3-4ACAA2E9A763Q35217475-823F0F70-6B56-4B96-AE8B-A2A9B33FD1F9Q35459617-D6E7EAE4-82AD-4306-B01D-2E9C59B91CC5Q35572939-CA69FAED-9539-40F8-9D34-878DAFD27868Q35613524-3772A42D-D8B3-4F6C-B11D-74029D23CFF9Q35690970-14AE9D20-BD89-49B4-B335-C218E5C72053Q35834277-D7CD4637-6A57-41DD-BEF4-CAA47B8A2373Q35911006-A766EB3D-A421-4CBD-A546-2C88D4077FE3Q35939088-65B45EA3-A2AC-4717-B86B-6BB0F166987BQ36174384-F920C27D-7D28-4CA5-B77D-CC79C9A6D076Q36501750-6B0BEB0D-4A3A-4CE8-A48B-7D0F3775A356Q36744230-428FB429-CB29-4115-89CB-85AC869BC1AFQ36752224-FDF7F710-5B6F-4C40-A3CD-48DCC1A8FAADQ37015014-A7BDFC3E-239E-4CEA-A0BC-8A13F87876B0Q37408131-8D907A87-65D4-4A5A-ADA6-A9ED7546E8B8Q37808286-CF536B81-7053-4D4F-88D5-78700CEE9604Q37849882-318994AB-8A2A-4BB6-89AE-7B336C654D46Q38019927-AEDC1E33-EB51-41B0-A70D-F311422B1C2CQ38229310-3FCD5677-36DD-4111-912C-2956A147F045Q38865388-F9129E7B-C04B-460D-ACBF-ED9D316D1A09Q38944697-C7F8F8A9-FB78-4C30-821A-B36F1FDD7AA0Q39275462-96D0630E-6038-4FCE-8B0E-06A7781029E0Q40443079-290CC3E8-B230-4276-98B0-FCDC68C013C1Q40988566-353BBDAE-BFEB-4A33-AC5C-8059B7B2CE9DQ41628428-1980AE2F-29C4-40E9-AB33-47B29E229B21Q41854743-29B8ABE1-8924-4488-8FD3-EB2F08E32C6FQ42091620-B8F0EA6A-04B2-406E-A18A-4E38803E10E7Q44906974-8C2FFF33-0BC1-42A1-8CCE-5CBB5CFF9FF1Q46063549-ECECFCA4-66C1-4E76-9C1B-0003D7B026D2
P2860
Increased expression of receptors for orexigenic factors in nodose ganglion of diet-induced obese rats
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 03 February 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Increased expression of recept ...... ion of diet-induced obese rats
@en
Increased expression of recept ...... on of diet-induced obese rats.
@nl
type
label
Increased expression of recept ...... ion of diet-induced obese rats
@en
Increased expression of recept ...... on of diet-induced obese rats.
@nl
prefLabel
Increased expression of recept ...... ion of diet-induced obese rats
@en
Increased expression of recept ...... on of diet-induced obese rats.
@nl
P2093
P2860
P1476
Increased expression of recept ...... ion of diet-induced obese rats
@en
P2093
Claire Barbier de la Serre
Gabriel Paulino
Helen E Raybould
Pieter J Oort
Trina A Knotts
P2860
P304
P356
10.1152/AJPENDO.90796.2008
P577
2009-02-03T00:00:00Z