Mitochondrial dysfunction results from oxidative stress in the skeletal muscle of diet-induced insulin-resistant mice
about
IRS1-independent defects define major nodes of insulin resistanceThe microRNA signature in response to insulin reveals its implication in the transcriptional action of insulin in human skeletal muscle and the role of a sterol regulatory element-binding protein-1c/myocyte enhancer factor 2C pathwayInsulin resistance is a cellular antioxidant defense mechanismSkeletal Muscle Mitochondrial Bioenergetics and Morphology in High Fat Diet Induced Obesity and Insulin Resistance: Focus on Dietary Fat SourceMitochondrial Regulation of the Muscle Microenvironment in Critical Limb IschemiaThe Role of Organelle Stresses in Diabetes Mellitus and Obesity: Implication for TreatmentThe Physiological Regulation of Skeletal Muscle Fatty Acid Supply and Oxidation During Moderate-Intensity ExerciseInsulin resistance protects the heart from fuel overload in dysregulated metabolic statesRedox regulation of mitochondrial biogenesisImpact of postprandial glycaemia on health and prevention of diseaseRedox balance dynamically regulates vascular growth and remodelingMsrA Overexpression Targeted to the Mitochondria, but Not Cytosol, Preserves Insulin Sensitivity in Diet-Induced Obese MiceChronic consumption of farmed salmon containing persistent organic pollutants causes insulin resistance and obesity in micePlasma Acylcarnitines and Amino Acid Levels As an Early Complex Biomarker of Propensity to High-Fat Diet-Induced Obesity in MiceObesity, Oxidative Stress, Adipose Tissue Dysfunction, and the Associated Health Risks: Causes and Therapeutic StrategiesContinuous low- to moderate-intensity exercise training is as effective as moderate- to high-intensity exercise training at lowering blood HbA(1c) in obese type 2 diabetes patientsChaperoning to the metabolic party: The emerging therapeutic role of heat-shock proteins in obesity and type 2 diabetesIn obese Zucker rats, lipids accumulate in the heart despite normal mitochondrial content, morphology and long-chain fatty acid oxidationThe effects of obesity on skeletal muscle regenerationA combination of nutriments improves mitochondrial biogenesis and function in skeletal muscle of type 2 diabetic Goto-Kakizaki ratsActivity-based protein profiling reveals mitochondrial oxidative enzyme impairment and restoration in diet-induced obese miceRegulation of skeletal muscle lipolysis and oxidative metabolism by the co-lipase CGI-58Nrf2-Mediated Regulation of Skeletal Muscle Glycogen MetabolismSignal transduction by reactive oxygen speciesMyotonic dystrophy protein kinase (DMPK) prevents ROS-induced cell death by assembling a hexokinase II-Src complex on the mitochondrial surfaceOpening of the mitochondrial permeability transition pore links mitochondrial dysfunction to insulin resistance in skeletal muscle.Insulin is a stronger inducer of insulin resistance than hyperglycemia in mice with type 1 diabetes mellitus (T1DM).Mitochondrial dysfunction and apoptosis in cumulus cells of type I diabetic miceMuscle-specific adaptations, impaired oxidative capacity and maintenance of contractile function characterize diet-induced obese mouse skeletal muscle.Structural and ultrastructural analysis of cerebral cortex, cerebellum, and hypothalamus from diabetic rats.Changes in mitochondrial function during EMT induced by TGFβ-1 in pancreatic cancerMolecular and metabolic evidence for mitochondrial defects associated with beta-cell dysfunction in a mouse model of type 2 diabetesSuperoxide production by mitochondria of insulin-sensitive tissues: mechanistic differences and effect of early diabetes.Biphasic response of mitochondrial biogenesis to oxidative stress in visceral fat of diet-induced obesity mice.Electron transport chain-dependent and -independent mechanisms of mitochondrial H2O2 emission during long-chain fatty acid oxidation.Perturbed adipose tissue hydrogen peroxide metabolism in centrally obese men: Association with insulin resistanceSIRT1 mRNA expression may be associated with energy expenditure and insulin sensitivityThe role of mitochondria in the pathophysiology of skeletal muscle insulin resistance.Persistent organic pollutant exposure leads to insulin resistance syndromeAbsence of insulin signalling in skeletal muscle is associated with reduced muscle mass and function: evidence for decreased protein synthesis and not increased degradation.
P2860
Q24647774-241A379A-BC2B-49AC-A3BD-DDA86C8FD55CQ24648295-65155DF8-3519-4166-BF5D-3B6174DDD9DDQ24650976-C56FECD6-E536-44BC-AE69-CAB85922E8D4Q26772781-D8F993B8-65BC-4DE1-9C3D-99F632B2DE66Q26774784-6AB9A776-D174-49AF-8542-041C19A3FFB0Q26776377-C8E9D0DA-F1DD-4F61-B23F-9B3DD4A9FBCBQ26778295-50A2495B-6575-4ADB-9C4A-0F123CCECDADQ26829463-FF38AD06-219A-42E4-9214-0788FC0F0BACQ26849213-2E045A42-E86A-4DF8-BC82-A94B926B5C9CQ26862823-13AE3BF7-4158-4440-8099-FA1DC61C53E9Q27004547-94903264-8CE5-40D5-8D59-B579A6E6F809Q27314952-831913CF-885E-4315-826A-D203515272B9Q27318852-5C3E7862-CDAE-4AB0-BF40-C353829FA469Q27346382-574528D1-6B34-404C-A82A-F08B09E14C33Q28088325-A565473B-7ED8-44A4-9D9C-3BCA7275CAB9Q28241481-5FF71256-DDC4-4CD2-ADCC-E825BC0ECEB4Q28251174-4759BF6A-05D8-4E46-A027-B579011847CDQ28386200-492B454D-B6A8-4CA6-B8B4-D6F417A0EB06Q28393087-BFC81987-CA6E-43B0-8704-5C3CF184CF63Q28472859-67A85827-13B9-4151-BC84-E5CAC58A627EQ28484573-1C763926-D7D3-4FD4-B2E9-25BCECE675B7Q28592284-173DD240-0611-4165-B988-6E62C92014E9Q28829068-48FE381E-370C-47F5-AD03-95F5BE7C22DEQ29615230-7FBD7244-FE96-4814-9676-C2E865EC2C4AQ30009539-7FEEB447-1ABB-40F9-994A-E9B34ABACCCAQ30414295-09D11575-A270-4D53-89EB-D1AFE578A5E8Q30434577-4C38D592-CF64-4C61-A4D2-C59353B32F15Q30994714-BFB3500D-80DB-4928-A95F-E975A753F00EQ33508811-92A5013F-8BB4-4D1A-AA39-6070DB73E375Q33509297-69161452-0436-4B16-94F4-E56368E22F0DQ33598666-146A43D1-0137-423C-A9E3-493654DF2BF9Q33604502-D1A6AAA7-B645-42C9-ADED-AA40A80EFC1BQ33618562-314DF509-F8A8-489E-A243-1CEEB445FB0AQ33630100-815AE8C4-84E3-4334-A8C1-A072989CD1A4Q33648511-FFFE3AAB-54D0-4578-B128-6C2064F1E70FQ33703701-BCA8E907-51B6-440F-9332-A8F2194FCBFBQ33750699-079B9384-F8C2-41C6-AF58-A910E27273A4Q33779662-8922B7E1-6213-4647-AF70-25864256F44BQ33789743-2D1E09B6-B2FC-4779-8EFF-7AF325308C9EQ33819049-B56690A7-78A1-46D3-A986-C70962B736F1
P2860
Mitochondrial dysfunction results from oxidative stress in the skeletal muscle of diet-induced insulin-resistant mice
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年学术文章
@wuu
2008年学术文章
@zh-cn
2008年学术文章
@zh-hans
2008年学术文章
@zh-my
2008年学术文章
@zh-sg
2008年學術文章
@yue
2008年學術文章
@zh
2008年學術文章
@zh-hant
name
Mitochondrial dysfunction resu ...... induced insulin-resistant mice
@ast
Mitochondrial dysfunction resu ...... induced insulin-resistant mice
@en
type
label
Mitochondrial dysfunction resu ...... induced insulin-resistant mice
@ast
Mitochondrial dysfunction resu ...... induced insulin-resistant mice
@en
prefLabel
Mitochondrial dysfunction resu ...... induced insulin-resistant mice
@ast
Mitochondrial dysfunction resu ...... induced insulin-resistant mice
@en
P2093
P2860
P50
P356
P1476
Mitochondrial dysfunction resu ...... induced insulin-resistant mice
@en
P2093
Annie Durand
Charlotte Bonnard
Emilie Chanseaume
Marie-Agnes Chauvin
Simone Peyrol
P2860
P304
P356
10.1172/JCI32601
P407
P577
2008-02-01T00:00:00Z