Exercise and training effects on ceramide metabolism in human skeletal muscle.
about
On ceramides, other sphingolipids and impaired glucose homeostasisRole of ceramide in diabetes mellitus: evidence and mechanisms.Bioactives of Artemisia dracunculus L. enhance insulin sensitivity by modulation of ceramide metabolism in rat skeletal muscle cells.Metabolic syndrome and insulin resistance: underlying causes and modification by exercise training.Neutral sphingomyelinase-3 mediates TNF-stimulated oxidant activity in skeletal muscleEffects of endurance exercise and high-fat diet on insulin resistance and ceramide contents of skeletal muscle in sprague-dawley ratsSphingomyelinase stimulates oxidant signaling to weaken skeletal muscle and promote fatigue.Adiposopathy: how do diet, exercise and weight loss drug therapies improve metabolic disease in overweight patients?Sphingolipid metabolism, oxidant signaling, and contractile function of skeletal muscleSkeletal muscle triglycerides, diacylglycerols, and ceramides in insulin resistance: another paradox in endurance-trained athletes?Bioactives of Artemisia dracunculus L. mitigate the role of ceramides in attenuating insulin signaling in rat skeletal muscle cellsImproved insulin sensitivity after exercise training is linked to reduced plasma C14:0 ceramide in obesity and type 2 diabetes.Skeletal intramyocellular lipid metabolism and insulin resistance.Sphingolipids, insulin resistance, and metabolic disease: new insights from in vivo manipulation of sphingolipid metabolism.Fiber specific changes in sphingolipid metabolism in skeletal muscles of hyperthyroid rats.Skeletal muscle insulin resistance: roles of fatty acid metabolism and exerciseDeterminants of intramyocellular triglyceride turnover: implications for insulin sensitivity.Evaluation of treadmill exercise effect on muscular lipid profiles of diabetic fatty rats by nanoflow liquid chromatography-tandem mass spectrometry.Increased ceramide content and NFκB signaling may contribute to the attenuation of anabolic signaling after resistance exercise in aged males.The role of skeletal muscle sphingolipids in the development of insulin resistanceTraining Does Not Alter Muscle Ceramide and Diacylglycerol in Offsprings of Type 2 Diabetic Patients Despite Improved Insulin Sensitivity.Inhibition of neutral sphingomyelinases in skeletal muscle attenuates fatty-acid induced defects in metabolism and stress.Myriocin prevents muscle ceramide accumulation but not muscle fiber atrophy during short-term mechanical unloading.Acid ceramidase overexpression prevents the inhibitory effects of saturated fatty acids on insulin signaling.Aerobic training in rats increases skeletal muscle sphingomyelinase and serine palmitoyltransferase activity, while decreasing ceramidase activity.Preparation of (13)C-labeled ceramide by acetic acid bacteria and its incorporation in miceExercise increases plasma levels of sphingoid base-1 phosphates in humans.Identification of serum analytes and metabolites associated with aerobic capacity.Serum Metabolomics of Activity Energy Expenditure and its Relation to Metabolic Syndrome and Obesity.Intracellular localization of diacylglycerols and sphingolipids influences insulin sensitivity and mitochondrial function in human skeletal muscle.Ceramide content is higher in type I compared to type II fibers in obesity and type 2 diabetes mellitus.Improved glucose tolerance after intensive life style intervention occurs without changes in muscle ceramide or triacylglycerol in morbidly obese subjects.Whole-body fat oxidation determined by graded exercise and indirect calorimetry: a role for muscle oxidative capacity?Genetic Variation in Acid Ceramidase Predicts Non-completion of an Exercise Intervention.Muscle ceramide content is similar after 3 weeks’ consumption of fat or carbohydrate diet in a crossover design in patients with type 2 diabetes
P2860
Q27021446-296B9ECE-0A68-41BC-A5DE-E984D03B0112Q30351934-AE883F99-57A1-4F4F-927D-1F91F74950D0Q33849575-5084A021-29CC-463E-83B5-B29159CA1840Q34031701-E81DE763-25D2-44AE-B520-981AF3FD1FFEQ34085972-53684E63-2DA0-4C72-9313-41207A50A1BCQ34101886-DF47CFD3-5E64-4B6B-8852-9DD8F0F5180EQ34149763-F4BAB967-60D8-419B-8A3A-78B32BE9F7C5Q34591803-E4102F3D-B4B7-4BCF-8955-9AE050BA2428Q35222194-5941F597-42E6-4075-BD81-6F51B75B09DEQ35227175-30C45ECB-1A78-4851-817B-1A30B2056E40Q35766966-AB774A71-EDB8-4FBB-8865-5B59336298A2Q35788303-E724FF30-8041-4C24-B8B3-EE140AEDC289Q36603044-304284F1-B0D3-4F5E-99E2-08AC2C64527FQ36861002-20042693-4A85-447A-994B-A1235D893FB7Q36948367-D5BB0326-5791-4958-8AED-0525EC358E18Q36965630-43B9F92D-2FAB-4677-975E-A9D40C00A1E1Q37001119-F653E117-D612-4741-B91E-514F94F4F54FQ37076615-6884A0D4-5E43-4DD2-B4BA-5EB02CD7A0D3Q37174122-688D001A-41B5-44EF-BB7E-90BD40B3115DQ37189363-F2C8383B-B55C-42F3-8535-08978E53D8D5Q37335290-CD3F8458-86BE-4DD6-98AF-A0ACBF3C36D3Q40103138-8C30C115-64FC-4263-BE05-E873B52BCDDFQ40350492-C7CB1EA9-ACD1-456E-B907-6DA5EF6F6B3EQ40445604-F04198D7-B679-4A43-97DB-E0F8798FD06CQ41808679-36A45BB6-5FB4-4F29-921F-0F9242BDD492Q41833396-33D5824F-737D-4E81-A9C9-E0DAF08605A4Q42487519-852DA332-60AD-4CA1-863C-18C66D78657EQ46576290-B033FC11-753C-45B7-8AFF-1756AA1A6D91Q49830624-2FB904EC-4F81-4409-92A8-C4EA0CF8BB47Q50130508-72F9688E-96C3-403F-84D1-54F467881FF4Q51360770-295ACC83-ECD8-4A1B-97ED-A2CD7F36F1EAQ51546289-F8B9A714-F760-4C69-A1C3-641E59D7529BQ51942919-4E7659C8-EEF0-4401-A097-E2E5590A2467Q55646357-FB671336-E2EA-44C5-9DE7-8C2D28A11C86Q57587385-D31F6605-AB73-42D5-AB29-947A2AB3F059
P2860
Exercise and training effects on ceramide metabolism in human skeletal muscle.
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年学术文章
@wuu
2004年学术文章
@zh
2004年学术文章
@zh-cn
2004年学术文章
@zh-hans
2004年学术文章
@zh-my
2004年学术文章
@zh-sg
2004年學術文章
@yue
2004年學術文章
@zh-hant
name
Exercise and training effects on ceramide metabolism in human skeletal muscle.
@en
Exercise and training effects on ceramide metabolism in human skeletal muscle.
@nl
type
label
Exercise and training effects on ceramide metabolism in human skeletal muscle.
@en
Exercise and training effects on ceramide metabolism in human skeletal muscle.
@nl
prefLabel
Exercise and training effects on ceramide metabolism in human skeletal muscle.
@en
Exercise and training effects on ceramide metabolism in human skeletal muscle.
@nl
P2860
P50
P1476
Exercise and training effects on ceramide metabolism in human skeletal muscle
@en
P2093
Bengt Saltin
P2860
P304
P356
10.1113/EXPPHYSIOL.2003.002605
P577
2004-01-01T00:00:00Z