Elevated NF-κB activation is conserved in human myocytes cultured from obese type 2 diabetic patients and attenuated by AMP-activated protein kinase
about
Interleukin-6 myokine signaling in skeletal muscle: a double-edged sword?Controls of Nuclear Factor-Kappa B Signaling Activity by 5'-AMP-Activated Protein Kinase Activation With Examples in Human Bladder Cancer CellsType 2 diabetes and obesity induce similar transcriptional reprogramming in human myocytesDysregulation of a novel miR-23b/27b-p53 axis impairs muscle stem cell differentiation of humans with type 2 diabetes.In vitro palmitate treatment of myotubes from postmenopausal women leads to ceramide accumulation, inflammation and affected insulin signaling.Satellite cells derived from obese humans with type 2 diabetes and differentiated into myocytes in vitro exhibit abnormal response to IL-6.Muscle as a secretory organ.Glucagon like peptide-1-induced glucose metabolism in differentiated human muscle satellite cells is attenuated by hyperglycemiaGenistein suppresses LPS-induced inflammatory response through inhibiting NF-κB following AMP kinase activation in RAW 264.7 macrophages.Lifelong Physical Activity Prevents Aging-Associated Insulin Resistance in Human Skeletal Muscle Myotubes via Increased Glucose Transporter Expression.p38 MAPK activation upregulates proinflammatory pathways in skeletal muscle cells from insulin-resistant type 2 diabetic patients.Exercise-induced AMPK and pyruvate dehydrogenase regulation is maintained during short-term low-grade inflammationExperimental diabetes induces structural, inflammatory and vascular changes of Achilles tendons.CYP2J2 attenuates metabolic dysfunction in diabetic mice by reducing hepatic inflammation via the PPARγ.Physical activity enhances metabolic fitness independently of cardiorespiratory fitness in marathon runners.Altered Myokine Secretion Is an Intrinsic Property of Skeletal Muscle in Type 2 DiabetesSubcellular proteomic approach for identifying the signaling effectors of protein kinase C-β₂ under high glucose conditions in human umbilical vein endothelial cellsHuman skeletal myotubes display a cell-autonomous circadian clock implicated in basal myokine secretion.Abnormal epigenetic changes during differentiation of human skeletal muscle stem cells from obese subjects.Retinoic acid protects cardiomyocytes from high glucose-induced apoptosis through inhibition of NF-κB signaling pathwayAltered response of skeletal muscle to IL-6 in type 2 diabetic patients.Curcumin attenuates diabetic neuropathic pain by downregulating TNF-α in a rat modelDefining the role of DAG, mitochondrial function, and lipid deposition in palmitate-induced proinflammatory signaling and its counter-modulation by palmitoleateLiver kinase B1 inhibits the expression of inflammation-related genes postcontraction in skeletal muscle.Synchronized human skeletal myotubes of lean, obese and type 2 diabetic patients maintain circadian oscillation of clock genes.Diabetic myopathy: impact of diabetes mellitus on skeletal muscle progenitor cells.Evaluation of fish oil-rich in MUFAs for anti-diabetic and anti-inflammation potential in experimental type 2 diabetic rats.Purslane (Portulaca oleracea) Seed Consumption And Aerobic Training Improves Biomarkers Associated with Atherosclerosis in Women with Type 2 Diabetes (T2D).Exploiting the anti-inflammatory effects of AMP-activated protein kinase activation.Muscle atrophy in patients with Type 2 Diabetes Mellitus: roles of inflammatory pathways, physical activity and exercise.Celastrol Protects against Antimycin A-Induced Insulin Resistance in Human Skeletal Muscle Cells.Oleate prevents saturated-fatty-acid-induced ER stress, inflammation and insulin resistance in skeletal muscle cells through an AMPK-dependent mechanism.Diabetes and stem cell function.Muscle cells challenged with saturated fatty acids mount an autonomous inflammatory response that activates macrophages.Physical activity is associated with retained muscle metabolism in human myotubes challenged with palmitate.Lipidomics reveals diurnal lipid oscillations in human skeletal muscle persisting in cellular myotubes cultured in vitro.Diabetes-Induced Dysfunction of Mitochondria and Stem Cells in Skeletal Muscle and the Nervous System.New metformin derivative HL156A prevents oral cancer progression by inhibiting the insulin-like growth factor/AKT/mammalian target of rapamycin pathways.Skeletal muscle inflammation and insulin resistance in obesity.Retained differentiation capacity of human skeletal muscle satellite cells from spinal cord-injured individuals.
P2860
Q26866208-33E29BBB-345D-4F64-BDAD-F1025438ECE1Q28071960-EAC1A376-203A-4E28-BB8A-0ABD70C93912Q33726611-3759EFFA-3374-48BB-A93A-F5DEB2156C65Q33835966-84152934-0E55-4725-9715-D52B8D8772F7Q33855536-363BB13F-AC55-4A63-8C04-DE7507B32B79Q34326387-DD547E1C-0FCF-4BDF-B204-7D2A1107F3C1Q34360586-23473436-DD0C-4132-9B91-5F873831DFC8Q34399734-14B6249E-0D97-47EC-BD95-107273D4A3B7Q34541665-6D0A8A59-E1E4-41CC-A4BD-4C1CC24EC979Q34785476-24865AF9-1568-46EF-9E8D-BBDBE05F70EBQ34800964-3B9B68D0-84B7-44DE-89A0-58988D300056Q34947306-A2517350-D442-4B71-A20B-4C4C1690B94EQ35018184-97206A7F-75F8-4350-BEDE-23C3B924FE51Q35086490-C1D5FE8C-63E9-4527-9277-6E2DE98F2476Q35188702-34C88B55-F984-409E-9EA6-6E6C4E41B588Q36084420-8B017F5E-B094-4D0B-8B84-2DC4C0F2B231Q36224900-B2E8984D-23A5-42E0-BCE1-98E54BC75AB7Q36246002-FC6C0F70-D2EF-45C3-98FC-8C40BB4CF8CDQ36286814-84E2E85D-894C-4AA3-995F-3664DD2AA145Q36315787-B852D1DF-C200-4F78-A39A-77267881E907Q36560588-AAAF073C-90A4-41E2-804E-DB5A3F01FB10Q36663372-47E1F54D-5D50-4555-82DA-C34AED75A802Q37076486-EBCA06B9-C4A8-42AE-9357-32E66DB50B78Q37218021-B526CD8A-040C-4696-8E13-DBCCF009DA07Q37348759-867B3E7C-729A-4757-9B68-9A67586371EAQ37405521-A8F72AB9-62A2-4633-AFBC-9610201E5C33Q37409965-2C25DDD0-A9C2-4434-897B-EC66C13ADB31Q37472038-C4BC48F1-FBFE-4179-882C-C715EF11B2FAQ38018381-090D5031-5191-48A8-AE4A-6A9D8C844340Q38727298-F7FA9B50-5894-48A5-B40C-B7F2440F3B5FQ38876792-033A7E77-B788-45C2-91D5-6CC9A566D449Q39185452-317AC470-C427-4743-8C67-593608B90953Q41443846-FDD0F3F5-A36B-410C-A881-5BED297AE118Q42359004-2BFEB689-3573-4D1F-9DE5-98F87E864CCDQ42440108-E7FA5F86-DC52-4A55-AE55-03DCFAA9B91CQ42697734-68380D66-B673-4B48-9D75-432DEC88BF82Q47130139-82C4C591-9CF9-4EA7-91ED-4D21836BE3BAQ47246957-999C7EEC-CC71-4996-816A-693CE9EF5925Q50308557-9D8B647A-C01D-4A7D-ACEA-0C7F5F1FF81FQ55260695-A7D2A796-C869-42A4-8ED3-4D757A32424F
P2860
Elevated NF-κB activation is conserved in human myocytes cultured from obese type 2 diabetic patients and attenuated by AMP-activated protein kinase
description
2011 nî lūn-bûn
@nan
2011 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2011 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
name
Elevated NF-κB activation is c ...... y AMP-activated protein kinase
@ast
Elevated NF-κB activation is c ...... y AMP-activated protein kinase
@en
type
label
Elevated NF-κB activation is c ...... y AMP-activated protein kinase
@ast
Elevated NF-κB activation is c ...... y AMP-activated protein kinase
@en
prefLabel
Elevated NF-κB activation is c ...... y AMP-activated protein kinase
@ast
Elevated NF-κB activation is c ...... y AMP-activated protein kinase
@en
P2860
P50
P356
P1433
P1476
Elevated NF-κB activation is c ...... y AMP-activated protein kinase
@en
P2093
Maria Pedersen
P2860
P304
P356
10.2337/DB11-0263
P407
P577
2011-09-12T00:00:00Z