Essential role of mitochondrial function in adiponectin synthesis in adipocytes.
about
Role of adiponectin and some other factors linking type 2 diabetes mellitus and obesityFree fatty acids, lipopolysaccharide and IL-1α induce adipocyte manganese superoxide dismutase which is increased in visceral adipose tissues of obese rodentsObesity, Oxidative Stress, Adipose Tissue Dysfunction, and the Associated Health Risks: Causes and Therapeutic StrategiesExercise and adrenaline increase PGC-1{alpha} mRNA expression in rat adipose tissueCycling our way to fit fat.Mitochondria and ageing: role in heart, skeletal muscle and adipose tissue.Genetic identification of thiosulfate sulfurtransferase as an adipocyte-expressed antidiabetic target in mice selected for leanness.Distinct gene expression profiles characterize cellular responses to palmitate and oleate.Mitochondrial respiration in subcutaneous and visceral adipose tissue from patients with morbid obesity.Adipose tissue mitochondrial dysfunction triggers a lipodystrophic syndrome with insulin resistance, hepatosteatosis, and cardiovascular complicationsTargeting mitochondrial alterations to prevent type 2 diabetes--evidence from studies of dietary redox-active compounds.Low-level laser therapy (LLLT) combined with swimming training improved the lipid profile in rats fed with high-fat diet.Adenylate kinase 2 links mitochondrial energy metabolism to the induction of the unfolded protein response.Different adipose depots: their role in the development of metabolic syndrome and mitochondrial response to hypolipidemic agents.Crif1 deficiency reduces adipose OXPHOS capacity and triggers inflammation and insulin resistance in miceAdipokines as novel biomarkers and regulators of the metabolic syndrome.Synergistic steatohepatitis by moderate obesity and alcohol in mice despite increased adiponectin and p-AMPK.Mitochondrial DNA damage via augmented oxidative stress regulates endoplasmic reticulum stress and autophagy: crosstalk, links and signalingInteraction between mitochondria and the endoplasmic reticulum: implications for the pathogenesis of type 2 diabetes mellitusAdipocyte mitochondrial genes and the forkhead factor FOXC2 are decreased in type 2 diabetes patients and normalized in response to rosiglitazonePeroxiredoxin 3 is a key molecule regulating adipocyte oxidative stress, mitochondrial biogenesis, and adipokine expression.Altered mitochondrial function and metabolic inflexibility associated with loss of caveolin-1.Depletion of mitochondrial DNA stabilizes C1qTNF-related protein 6 mRNA in muscle cells.The role of mitochondria in the pathogenesis of type 2 diabetesLimited OXPHOS capacity in white adipocytes is a hallmark of obesity in laboratory mice irrespective of the glucose tolerance status.Mitochondrial dysfunction in white adipose tissue.Effect of endoplasmic reticulum stress on inflammation and adiponectin regulation in human adipocytes.Mitochondrial dysfunction and activation of iNOS are responsible for the palmitate-induced decrease in adiponectin synthesis in 3T3L1 adipocytes.Paradoxical effect of mitochondrial respiratory chain impairment on insulin signaling and glucose transport in adipose cells.Role of mitochondria in HIV infection and associated metabolic disorders: focus on nonalcoholic fatty liver disease and lipodystrophy syndrome.Cessation of daily wheel running differentially alters fat oxidation capacity in liver, muscle, and adipose tissueMitoNEET-driven alterations in adipocyte mitochondrial activity reveal a crucial adaptive process that preserves insulin sensitivity in obesity.Beneficial effects of combined resveratrol and metformin therapy in treating diet-induced insulin resistanceMitochondrial DNA variation and changes in adiponectin and endothelial function in HIV-infected adults after antiretroviral therapy initiationMitochondrial dysfunction in obesityLeucine modulation of mitochondrial mass and oxygen consumption in skeletal muscle cells and adipocytes.Mitochondrial (dys)function in adipocyte (de)differentiation and systemic metabolic alterations.Quantitative proteomic and functional analysis of liver mitochondria from high fat diet (HFD) diabetic mice.Adipocyte mitochondrial function is reduced in human obesity independent of fat cell sizeAdiponectin reduces ER stress-induced apoptosis through PPARα transcriptional regulation of ATF2 in mouse adipose
P2860
Q26777653-872081B1-6BE1-4079-A953-C3FD6E790C48Q27329108-9DDE8005-A500-43CA-A518-541FFC651F32Q28088325-EDA5BF93-1DDF-4D70-A9C8-B968F5E7E795Q28570745-D1768BE4-4B31-4ED2-ABB3-8533BEAEDCCFQ33567551-1B418EB8-7CB3-4655-AC02-344DA4421A36Q33813591-F4AD2222-9593-4B77-9E53-C78A1A8A711BQ33924974-B16B663C-6B6A-4A16-9259-2092D283F6C7Q33993213-4723D490-8109-4CBA-81A2-E62BE222A3D4Q34022206-36AC68DA-3A67-4BC3-8EE7-27EDF3563D67Q34365560-74E9A91C-FBF7-4FFF-BEA1-1A515BCFE89DQ34412057-0DDA8497-CC82-4196-8E0C-3533451A90DAQ34477021-872E400C-4880-4ADA-882A-673B5C97FCAFQ34575683-F5730215-7BDA-4413-B08E-26B06F5E16B4Q34591044-63EACC05-0161-4E65-A24B-E3C2CA2CAFDEQ34629224-392F6934-A1A2-454B-B698-869BDC97DDEEQ34786187-7F563E0A-EA18-4B2C-93B2-E678A07A48C5Q34981610-6C86F915-6177-412D-88C5-74D7B1FB1341Q35070912-51A688BD-D7C3-4315-94F3-28DD9909DE4FQ35117449-84674B06-8998-436E-8660-F50C1F3ECD4DQ35591020-A527DBF9-E3FD-48A1-99D5-C21F2ADB1058Q35604034-1FFBFA17-D7E6-485E-8AF6-78ED9A347B06Q35754650-D43C2EAA-27FC-48E0-BEF4-FEC88A975635Q35928934-BDBFAB00-2B15-4AFD-8F7D-48CFEFEDF1FBQ36003367-F979885C-C9A5-4497-91E6-CC782D4B3F77Q36038125-F3C41678-2985-4672-A31D-9C54DFA350C7Q36198938-DFA72902-8AE6-479E-AC77-0E9CE635A34BQ36254434-4EABC5EC-4A1A-4DE1-ADC0-D6ED8ED0B7A4Q36301880-133753B2-F17E-433D-898E-1210682B8D08Q36957828-292CBD50-EE12-42F4-B27A-F5CE60B090E3Q37077573-34B6D914-F29B-421B-A444-517190AFBC70Q37086221-2726F3CB-3CC1-4C0D-8098-A3ECD6E9AC1DQ37100064-2217618C-7C18-483E-A3E0-A6BA734D2E48Q37176719-0A76DBD5-5959-4AD0-9B9A-C459D5F79E22Q37204095-B00FB56A-1452-4710-B62F-E50616B5E700Q37210859-6D6B20D7-CA0B-4D35-A1C6-6AC6FB8FC2FFQ37241569-DD93E07B-BB0F-4241-AF9D-F372801CA2FCQ37316455-56397B6D-26C9-4ED0-8CD2-D7C6C453083BQ37389002-C78F04A0-914E-4787-889D-2AFCD599A07CQ37554753-3F178E85-3F67-4F11-B6D3-7F1A631E74F7Q37603255-E1AE89B4-CDFB-4910-A740-559785201893
P2860
Essential role of mitochondrial function in adiponectin synthesis in adipocytes.
description
2007 nî lūn-bûn
@nan
2007 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2007 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
name
Essential role of mitochondrial function in adiponectin synthesis in adipocytes.
@ast
Essential role of mitochondrial function in adiponectin synthesis in adipocytes.
@en
Essential role of mitochondrial function in adiponectin synthesis in adipocytes.
@nl
type
label
Essential role of mitochondrial function in adiponectin synthesis in adipocytes.
@ast
Essential role of mitochondrial function in adiponectin synthesis in adipocytes.
@en
Essential role of mitochondrial function in adiponectin synthesis in adipocytes.
@nl
prefLabel
Essential role of mitochondrial function in adiponectin synthesis in adipocytes.
@ast
Essential role of mitochondrial function in adiponectin synthesis in adipocytes.
@en
Essential role of mitochondrial function in adiponectin synthesis in adipocytes.
@nl
P2093
P356
P1433
P1476
Essential role of mitochondrial function in adiponectin synthesis in adipocytes.
@en
P2093
Eun Hee Koh
Hye-Sun Park
In Sun Park
Jang Hyun Youn
Je Won Ryu
Joong-Yeol Park
Min Jae Jeon
Min-Seon Kim
P304
P356
10.2337/DB07-0510
P407
P577
2007-09-07T00:00:00Z