Oxidative stress and diabetic cardiovascular disorders: roles of mitochondria and NADPH oxidase.
about
Transcriptome-wide RNA sequencing analysis of rat skeletal muscle feed arteries. I. Impact of obesityIron in multiple sclerosis: roles in neurodegeneration and repair.Cdc42-dependent activation of NADPH oxidase is involved in ethanol-induced neuronal oxidative stress.Obesity-related pulmonary arterial hypertension in rats correlates with increased circulating inflammatory cytokines and lipids and with oxidant damage in the arterial wall but not with hypoxiaNitric oxide and mitochondria in metabolic syndrome.Stress-related transcription factor AtfB integrates secondary metabolism with oxidative stress response in aspergilli.Resorcylidene aminoguanidine (RAG) improves cardiac mitochondrial bioenergetics impaired by hyperglycaemia in a model of experimental diabetes.Hypoxia pretreatment of bone marrow mesenchymal stem cells facilitates angiogenesis by improving the function of endothelial cells in diabetic rats with lower ischemia.Epoxyeicosatrienoic acids and heme oxygenase-1 interaction attenuates diabetes and metabolic syndrome complicationsTime-dependent alterations in rat macrovessels with type 1 diabetesCellular bioenergetics is regulated by PARP1 under resting conditions and during oxidative stress.Effects of N-acetylcysteine on nicotinamide dinucleotide phosphate oxidase activation and antioxidant status in heart, lung, liver and kidney in streptozotocin-induced diabetic rats.Endothelial dysfunction and diabetes: effects on angiogenesis, vascular remodeling, and wound healing.Mitochondria and Oxidative Stress in the Cardiorenal Metabolic Syndrome.Targeted Modification of Mitochondrial ROS Production Converts High Glucose-Induced Cytotoxicity to Cytoprotection: Effects on Anesthetic Preconditioning.Emerging role of PKA/eNOS pathway in therapeutic angiogenesis for ischaemic tissue diseasesImpaired Excitatory Neurotransmission in the Urinary Bladder from the Obese Zucker Rat: Role of Cannabinoid Receptors.Regular physical exercise as a strategy to improve antioxidant and anti-inflammatory status: benefits in type 2 diabetes mellitus.Uric Acid-Induced Adipocyte Dysfunction Is Attenuated by HO-1 Upregulation: Potential Role of Antioxidant Therapy to Target Obesity.Alterations in glutathione redox metabolism, oxidative stress, and mitochondrial function in the left ventricle of elderly Zucker diabetic fatty rat heart.Rosiglitazone attenuates NF-κB-mediated Nox4 upregulation in hyperglycemia-activated endothelial cellsIn vivo targeted molecular magnetic resonance imaging of free radicals in diabetic cardiomyopathy within miceFructose: a key factor in the development of metabolic syndrome and hypertension.Featured Article: Oxidative stress status and liver tissue defenses in diabetic rats during intensive subcutaneous insulin therapy.Lentinan protects pancreatic β cells from STZ-induced damage.Effect of type 1 diabetes on the production and vasoactivity of hydrogen sulfide in rat middle cerebral arteriesHyperglycemia induces differential change in oxidative stress at gene expression and functional levels in HUVEC and HMVEC.Angiotensin receptor-mediated oxidative stress is associated with impaired cardiac redox signaling and mitochondrial function in insulin-resistant rats.A novel role for epidermal growth factor receptor tyrosine kinase and its downstream endoplasmic reticulum stress in cardiac damage and microvascular dysfunction in type 1 diabetes mellitus.Role of endothelin receptor A and NADPH oxidase in vascular abnormalities.Oxidative stress, Nox isoforms and complications of diabetes--potential targets for novel therapies.Oxidative stress and myocardial injury in the diabetic heartRedox-inflammatory synergy in the metabolic syndrome.Non-linear actions of physiological agents: Finite disarrangements elicit fitness benefits.Oxyradical stress increases the biosynthesis of 2-arachidonoylglycerol: involvement of NADPH oxidase.Targeting the NO/superoxide ratio in adipose tissue: relevance to obesity and diabetes management.Pyrroloquinoline quinone protects mouse brain endothelial cells from high glucose-induced damage in vitro.Modulating mitochondrial fission to lower diabetic oxidative stress.The protective effect of fasudil on the structure and function of cardiac mitochondria from rats with type 2 diabetes induced by streptozotocin with a high-fat diet is mediated by the attenuation of oxidative stress.Changes in serum lipid profile of obese or overweight children and adolescents following a lifestyle modification course.
P2860
Q28386749-CDC8BBE7-0432-455D-AE75-B7B1FD5E9F36Q30835527-20151434-58BD-4FED-B810-1495D0A025CAQ34291492-9575C5DD-9292-4E76-A5AC-51D89FA8D673Q34782576-F30460E8-4F3A-4E0B-89DA-46EBEBB5352BQ35089868-75D33FBE-C2B3-4ED6-AAA1-F6DA02EB1402Q35266821-6AF1DFC9-F709-4898-9EC6-0729DA3402EFQ35600193-85995D9F-542D-4F3B-9762-3537AAB03C08Q35634615-702BF734-0590-4FB8-A415-B870607DB1CBQ35681034-E6B26D5B-6B42-41B7-8E06-1E500496CB16Q35726140-46D757D0-B3BF-40A0-98C6-B55B22BFC539Q35738810-1C70D411-C3AE-4215-B02C-93FC3A172969Q35767510-A87BA905-9A71-4548-8C26-AC8D4135C270Q35947546-89C06BCB-F774-4345-B74D-2699B4CCC2D0Q35976043-50937971-D935-4E40-B838-1D7F090A86B2Q36006400-6994216F-DF75-44F1-AAF3-C9DC60627288Q36042713-72843072-3E7B-4458-9F6E-03B80F0F59E6Q36048213-FE0762CD-ADFA-4AB4-A3B7-B3BF13513B19Q36184201-FBF72731-FD97-467F-836C-E2E3625DACD3Q36349169-1C059427-2458-46AB-B453-54C3ED560105Q36538379-279153A8-D98B-45A5-AEE3-257E08026AC6Q36777447-B1CAAB00-BB46-4815-AD5A-8DF57AB3CE0DQ36902956-F46B5A55-B950-4FA7-A32C-496E7F3EF575Q36916094-1654B455-C1F3-45F5-B96F-786B5AF20B89Q37071494-156DADBA-2BDA-4709-A467-AFFB657833B7Q37251605-1E3CF803-1DEE-4721-A905-0BD0D505D7BCQ37344156-A7E6BA7D-3EDD-4800-BBFB-C93F729DA954Q37364547-9E2AF47C-CB3A-432C-8AE4-6C4680DAD2ABQ37476490-4D694A7D-8AD5-44B9-B451-346C42BE1526Q37560339-3140FB26-DE02-4ADF-9ADC-8B25F608811AQ37790995-C8912FD8-C279-4B91-BAAD-8A6849F8769AQ38019841-4CB1E90B-6815-4251-B9F3-01774C1F13D3Q38046547-470782C0-D9AD-4B0C-8535-942CA79387E2Q38078014-53AD66AA-7430-47F1-A28A-BF4F94140411Q38736144-36F2CA3B-D6E9-4F64-B04F-533397172721Q38736431-2475230E-8A30-4D1C-80C5-DC2030831498Q38808467-99165E9B-8FAF-4E75-8611-D1A075B473ACQ38950474-927DD808-1564-4881-A2D5-453A7A2D07E8Q42083837-538D4B91-EB96-4EE5-9856-44B2286F96D7Q42142672-845CCAE8-39B5-415E-A77B-E628DB2B901AQ42213366-72579E40-DBF9-4D77-8327-1DC68722C0CB
P2860
Oxidative stress and diabetic cardiovascular disorders: roles of mitochondria and NADPH oxidase.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on March 2010
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Oxidative stress and diabetic ...... itochondria and NADPH oxidase.
@en
Oxidative stress and diabetic ...... itochondria and NADPH oxidase.
@nl
type
label
Oxidative stress and diabetic ...... itochondria and NADPH oxidase.
@en
Oxidative stress and diabetic ...... itochondria and NADPH oxidase.
@nl
prefLabel
Oxidative stress and diabetic ...... itochondria and NADPH oxidase.
@en
Oxidative stress and diabetic ...... itochondria and NADPH oxidase.
@nl
P2860
P356
P1476
Oxidative stress and diabetic ...... itochondria and NADPH oxidase.
@en
P2093
Garry X Shen
P2860
P304
P356
10.1139/Y10-018
P577
2010-03-01T00:00:00Z