GLP-1 and energy balance: an integrated model of short-term and long-term control
about
Regulation of glucose homeostasis by GLP-1From neuroanatomy to behavior: central integration of peripheral signals regulating feeding behaviorRegulation of energy balance by inflammation: common theme in physiology and pathologyPhysiology of proglucagon peptides: role of glucagon and GLP-1 in health and diseaseProtection against the Metabolic Syndrome by Guar Gum-Derived Short-Chain Fatty Acids Depends on Peroxisome Proliferator-Activated Receptor γ and Glucagon-Like Peptide-1Glucagon-Like Peptide-1 and Its Class B G Protein-Coupled Receptors: A Long March to Therapeutic SuccessesInsulin-like peptide 5 is an orexigenic gastrointestinal hormoneGut-Brain Cross-Talk in Metabolic Control.The arcuate nucleus mediates GLP-1 receptor agonist liraglutide-dependent weight loss.Smartphone-controlled optogenetically engineered cells enable semiautomatic glucose homeostasis in diabetic mice.Tolerability of nausea and vomiting and associations with weight loss in a randomized trial of liraglutide in obese, non-diabetic adults.The GLP-1 agonist exendin-4 attenuates self-administration of sweetened fat on fixed and progressive ratio schedules of reinforcement in rats.Neurobiology of food intake in health and disease.Gut hormones such as amylin and GLP-1 in the control of eating and energy expenditure.The role of short-chain fatty acids in the interplay between diet, gut microbiota, and host energy metabolism.Wired on sugar: the role of the CNS in the regulation of glucose homeostasis.MGAT2 deficiency and vertical sleeve gastrectomy have independent metabolic effects in the mouse.Expression and distribution of glucagon-like peptide-1 receptor mRNA, protein and binding in the male nonhuman primate (Macaca mulatta) brain.Gut-brain mechanisms controlling glucose homeostasis.GLP-1 based therapeutics: simultaneously combating T2DM and obesity.Effect of targeted estrogen delivery using glucagon-like peptide-1 on insulin secretion, insulin sensitivity and glucose homeostasis.Evidence That in Uncontrolled Diabetes, Hyperglucagonemia Is Required for Ketosis but Not for Increased Hepatic Glucose Production or Hyperglycemia.A Lower Olfactory Capacity Is Related to Higher Circulating Concentrations of Endocannabinoid 2-Arachidonoylglycerol and Higher Body Mass Index in WomenExtending the reach of Exendin-4: new pathways in the control of body weight and glucose homeostasis.Exendin-4 decreases amphetamine-induced locomotor activity.Peripheral neural targets in obesitySuppression of food intake by glucagon-like peptide-1 receptor agonists: relative potencies and role of dipeptidyl peptidase-4Increased Glucose-induced Secretion of Glucagon-like Peptide-1 in Mice Lacking the Carcinoembryonic Antigen-related Cell Adhesion Molecule 2 (CEACAM2).Cardiovascular biology of the incretin system.Pharmaceutically controlled designer circuit for the treatment of the metabolic syndrome.Effects of exercise training on gut hormone levels after a single bout of exercise in middle-aged Japanese women.An Innate Disposition for a Healthier Gut: GLP-1R Signaling in Intestinal Epithelial Lymphocytes.Effects of late gestational high-fat diet on body weight, metabolic regulation and adipokine expression in offspring.Effects of liraglutide on postprandial insulin and glucagon responses in Japanese patients with type 2 diabetesHigh-fat diet changes the temporal profile of GLP-1 receptor-mediated hypophagia in rats.Targeted estrogen delivery reverses the metabolic syndrome.Role of central glucagon-like peptide-1 in stress regulation.Adropin deficiency is associated with increased adiposity and insulin resistance.GLP-1 receptor signaling is not required for reduced body weight after RYGB in rodents.Rationale, design, and baseline characteristics of a clinical trial for prevention of atherosclerosis in patients with insulin-treated type 2 diabetes mellitus using DPP-4 inhibitor: the Sitagliptin Preventive study of Intima-media thickness Evaluat
P2860
Q24563430-1821FD7D-891D-477A-BEC5-6BD17E16B586Q26828589-F1E43551-6A90-4D85-877F-DBB2EC56AFDBQ26829584-F195C877-6136-409D-BA5A-5DDE98764BF6Q27027920-B6230DE9-BC13-450C-A996-4ABD6C150B46Q27321785-B228584A-BA4D-4302-BB2A-93851DFFE188Q28067465-5E47C7A5-C31A-4EFF-A0CE-5917619D9026Q28507260-49E8B4FD-DB40-41A5-9282-456BE041832AQ30235568-D513ED20-ED2B-4BBF-A38E-68209ECBDF38Q30596646-F64E2CB6-5DB1-4884-875B-61AB59307ABBQ33454248-FC99426B-2BE4-45B0-ABB6-174151449531Q33570118-416943F0-09CC-43BD-97CE-5CD34B006066Q33787829-D1F54061-6D39-4152-885B-FCB516BA96FFQ33825213-0EF1D314-1A74-40F0-976A-C95B305E57BBQ33838133-1694A9B5-8D9E-4B3F-9626-A7FD79E9DFBDQ34355154-2755A828-882B-4D93-8971-CD06A6B80E8CQ34508419-4ED6098A-A81F-41B0-89AD-610F767F03D3Q34627645-64B36669-2839-4147-8188-C0E10B5F164CQ34745109-FD03F590-DB43-4AE1-A3FA-D29F20216A95Q35029601-D6567256-96F6-49C3-960D-709F9496D71AQ35200252-126BB583-7A1B-4A74-B7AC-14FF4EACF46FQ35599917-1FA5BFFF-C915-421F-BFD2-5203FA2C7B45Q35769584-0E91DC09-978A-4104-BDE8-907034772D39Q35915760-E181585A-9CC7-4BB1-9553-CF76782074D5Q35920772-0798C4EC-C994-4B75-B1C3-DC49E8CF3B30Q35948898-1F7C8B47-8EE6-48BC-8DFF-8942BD99A99BQ36166645-ED2BFA92-3A68-4B40-8C7E-8BD2FEB1EB99Q36439654-021148D3-55A1-4C59-9C00-35D5F5828D79Q36442462-53FCD5B5-2242-41B9-94C0-B40A43D343EEQ36484283-CDBC45E7-BFA1-432A-B06D-BBBD6DB3563EQ36512376-D9722A0D-1D69-4AD2-A83C-2F27650C8E31Q36684108-43E2EED9-6356-4C35-905C-6C64D61381BFQ36926355-1B68DDB5-D464-4DEA-9C59-B006F0D7890AQ36983097-4CF4972B-447D-452D-B7A6-D7BDCE867F84Q36993549-0532255C-B324-4CDB-A24D-DABB06EE7FB8Q37054716-186A4BBE-09F1-4A40-9710-0DEA130FA14AQ37134063-C5136831-7415-43EA-880B-45A3EA7BC879Q37185214-880A8B66-BF7E-403B-98F6-F5503585F6B2Q37527258-55752A57-675A-433B-ABA4-4A8FDCC01FE0Q37629291-EA597F0E-2CF1-4673-8670-3996DED874CCQ37681515-FB2E4DCC-74B0-46F7-BAC7-B01C6A678E1A
P2860
GLP-1 and energy balance: an integrated model of short-term and long-term control
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 07 June 2011
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
GLP-1 and energy balance: an integrated model of short-term and long-term control
@en
GLP-1 and energy balance: an integrated model of short-term and long-term control.
@nl
type
label
GLP-1 and energy balance: an integrated model of short-term and long-term control
@en
GLP-1 and energy balance: an integrated model of short-term and long-term control.
@nl
prefLabel
GLP-1 and energy balance: an integrated model of short-term and long-term control
@en
GLP-1 and energy balance: an integrated model of short-term and long-term control.
@nl
P2093
P2860
P356
P1476
GLP-1 and energy balance: an integrated model of short-term and long-term control
@en
P2093
Darleen A Sandoval
David A D'Alessio
Jason G Barrera
P2860
P2888
P304
P356
10.1038/NRENDO.2011.77
P577
2011-06-07T00:00:00Z