Intramuscular lipid metabolism, insulin action, and obesity.
about
Autophagy-associated atrophy and metabolic remodeling of the mouse diaphragm after short-term intermittent hypoxiaBrain insulin resistance and deficiency as therapeutic targets in Alzheimer's diseaseDifferential regulation of PGC-1alpha expression in rat liver and skeletal muscle in response to voluntary runningInsulin resistance is associated with higher intramyocellular triglycerides in type I but not type II myocytes concomitant with higher ceramide content.Electric pulse stimulation of cultured murine muscle cells reproduces gene expression changes of trained mouse muscleLipocalin-2 deficiency attenuates insulin resistance associated with aging and obesityEffect of oral intake of capsaicinoid beadlets on catecholamine secretion and blood markers of lipolysis in healthy adults: a randomized, placebo controlled, double-blind, cross-over study.Effects of endurance exercise and high-fat diet on insulin resistance and ceramide contents of skeletal muscle in sprague-dawley ratsThe missing risk: MRI and MRS phenotyping of abdominal adiposity and ectopic fat.Muscle ectopic fat deposition contributes to anabolic resistance in obese sarcopenic old rats through eIF2α activation.Skeletal muscle triglycerides, diacylglycerols, and ceramides in insulin resistance: another paradox in endurance-trained athletes?Improved insulin sensitivity after exercise training is linked to reduced plasma C14:0 ceramide in obesity and type 2 diabetes.Mechanisms underlying skeletal muscle insulin resistance induced by fatty acids: importance of the mitochondrial functionDifferential epigenetic and transcriptional response of the skeletal muscle carnitine palmitoyltransferase 1B (CPT1B) gene to lipid exposure with obesityBrain metabolic dysfunction at the core of Alzheimer's disease.Triangulated mal-signaling in Alzheimer's disease: roles of neurotoxic ceramides, ER stress, and insulin resistance reviewedTolerability of Capsaicinoids from Capsicum Extract in a Beadlet Form: A Pilot StudyRapid Repression of ADP Transport by Palmitoyl-CoA Is Attenuated by Exercise Training in Humans: A Potential Mechanism to Decrease Oxidative Stress and Improve Skeletal Muscle Insulin Signaling.A finished dietary supplement stimulates lipolysis and metabolic rate in young men and womenBiochemical and anthropometric effects of a weight loss dietary supplement in healthy men and womenIn vivo high-resolution magic angle spinning magnetic resonance spectroscopy of Drosophila melanogaster at 14.1 T shows trauma in aging and in innate immune-deficiency is linked to reduced insulin signaling.Dietary supplement increases plasma norepinephrine, lipolysis, and metabolic rate in resistance trained men.Effect of the dietary supplement Meltdown on catecholamine secretion, markers of lipolysis, and metabolic rate in men and women: a randomized, placebo controlled, cross-over study.The liver-brain axis of alcohol-mediated neurodegeneration: role of toxic lipids.Insulin resistance and neurodegeneration: roles of obesity, type 2 diabetes mellitus and non-alcoholic steatohepatitis.Effect of acute endurance and resistance exercise on endocrine hormones directly related to lipolysis and skeletal muscle protein synthesis in adult individuals with obesity.Proteomic identification of biomarkers of skeletal muscle disorders.Mitochondrial dysfunction as a central event for mechanisms underlying insulin resistance: the roles of long chain fatty acids.Growing healthy muscles to optimise metabolic health into adult life.Sarcopenic obesity: molecular clues to a better understanding of its pathogenesis?Challenging of AS160/TBC1D4 Alters Intracellular Lipid milieu in L6 Myotubes Incubated With Palmitate.Palmitoyl-carnitine production by blood cells associates with the concentration of circulating acyl-carnitines in healthy overweight women.Lung injury-induced skeletal muscle wasting in aged mice is linked to alterations in long chain fatty acid metabolismRoles of G protein-coupled estrogen receptor GPER in metabolic regulation.Steroidogenic Acute Regulatory Protein (StAR) Overexpression Reduces Inflammation and Insulin Resistance in Obese Mice.Fasting plasma triglycerides predict the glycaemic response to treatment of type 2 diabetes by gastric electrical stimulation. A novel lipotoxicity paradigm.Absence of 4-1BB reduces obesity-induced atrophic response in skeletal muscle.Treatment with marine collagen peptides modulates glucose and lipid metabolism in Chinese patients with type 2 diabetes mellitus.Endocrine control of oleic acid and glucose metabolism in rainbow trout (Oncorhynchus mykiss) muscle cells in culture.In vivo high-resolution magic angle spinning magnetic and electron paramagnetic resonance spectroscopic analysis of mitochondria-targeted peptide in Drosophila melanogaster with trauma-induced thoracic injury.
P2860
Q27303729-50ACA68F-1113-4B42-93B2-316BAA24922BQ28259585-C350473C-D763-4613-84D9-77D13CE2D899Q28583037-FB2DF129-DB17-4D32-92D2-6BA1C8552442Q33556682-210CB54A-FB12-42C2-9BB8-F2F1ABBA6681Q33598389-BF76FDB5-3A04-4FDA-A071-80E14439E0B7Q33750720-E7574256-BBD1-400E-8FE9-21977E7B46A9Q34031552-75360AA6-6F74-4312-AAF4-A3DF89E8A7D0Q34101886-7DFA7BF7-C7D7-405A-976F-974560070D0AQ34191470-E33C0892-76B3-44E3-B9BA-B1AB09562014Q35080584-A087CB2F-ABDA-4C68-BF8C-F1091F1738DBQ35227175-D6DC370A-CB50-443C-81DD-4E8A9F0F96ACQ35788303-126DDFF3-65A0-4AA7-B099-F2DCC50119B6Q35854385-29B5523A-57FE-444F-AC3B-01A6E6C1AA39Q35958505-F4A9BFC0-CB23-44D0-89A6-33FB13871887Q35997881-D696B295-45E6-4D06-BF52-7EB62D2AF216Q35997884-20632BB0-BFDA-42FF-A2D9-BEA620916E51Q36739246-64A49A52-E955-4E2F-944C-9E37E980EBB4Q36926467-6E525C89-6E80-4DE5-8B47-E5E108579FCAQ36973520-4E55A1E7-C5AC-4EC6-A2EE-3554A9CD33C0Q36973523-AE9B3B65-5FCD-46A1-A514-3A3B0B1B31E8Q37043887-8AF049FC-4387-49A7-A8CF-C16181762DA5Q37103783-A7FBA958-5A8F-4C84-87D5-BD8ED3B1D017Q37309908-35AA6426-3AC3-453C-A8D6-ED7F8B7C088EQ37335385-5B512DAB-F1D6-4600-8FCC-5739C290D84FQ37602608-1B9E5A95-DAD9-44F2-B5D8-F9509DAFF2F1Q37997795-E3BE7568-DE12-4258-95B5-0123792DC4E5Q38079622-C905E107-69CF-4ACE-8BC8-4FD301D50D68Q38241510-79656A76-B0C0-419A-A76C-77024EE4D022Q38258209-49189D95-A406-487E-8014-6CF4800AA25AQ38265681-50AB9C96-028B-477A-B267-4230A4C4C8CCQ38742105-55ABFD46-D7CB-4BDF-9C72-E044894E0252Q38821525-D94B145D-2AC8-4BAC-B129-D4732956FEF0Q38952542-4537833A-63D5-4BB5-B3F7-E4ADA39FCBB7Q39145694-1A9C3459-4FAC-4660-8EA4-7868ACBE3DCBQ40254565-B415A081-5860-4DB3-A870-668C68E6AE3EQ41952935-9907D103-2D3B-4371-A5A6-8845833F3780Q42070624-6C40FC94-845D-4AD3-B06F-867FBA0D5A41Q42777103-AD6C0835-BE9D-41E9-BBD3-F3E1E03DB713Q43059423-8E85CB29-2612-4CB4-BC15-44CED0773D66Q43083626-0FE21D6A-936A-41A4-B03E-7BBC1C0206AB
P2860
Intramuscular lipid metabolism, insulin action, and obesity.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on January 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Intramuscular lipid metabolism, insulin action, and obesity.
@en
Intramuscular lipid metabolism, insulin action, and obesity.
@nl
type
label
Intramuscular lipid metabolism, insulin action, and obesity.
@en
Intramuscular lipid metabolism, insulin action, and obesity.
@nl
prefLabel
Intramuscular lipid metabolism, insulin action, and obesity.
@en
Intramuscular lipid metabolism, insulin action, and obesity.
@nl
P2093
P2860
P356
P1433
P1476
Intramuscular lipid metabolism, insulin action, and obesity.
@en
P2093
Jill A Bell
Joseph A Houmard
Leslie A Consitt
P2860
P356
10.1002/IUB.142
P577
2009-01-01T00:00:00Z