Hypoxia increases expression of selective facilitative glucose transporters (GLUT) and 2-deoxy-D-glucose uptake in human adipocytes.
about
PCR arrays identify metallothionein-3 as a highly hypoxia-inducible gene in human adipocytesRegulation of the fructose transporter GLUT5 in health and diseaseHypoxia, Oxidative Stress and FatClinical procedure for colon carcinoma tissue sampling directly affects the cancer marker-capacity of VEGF family membersHexosamine biosynthesis is a possible mechanism underlying hypoxia's effects on lipid metabolism in human adipocytesOxygen deprivation and the cellular response to hypoxia in adipocytes - perspectives on white and brown adipose tissues in obesity.Hypoxia-induced inflammatory cytokine secretion in human adipose tissue stromovascular cells.Utilization of dietary glucose in the metabolic syndromeAging is associated with hypoxia and oxidative stress in adipose tissue: implications for adipose function.Fructose Alters Intermediary Metabolism of Glucose in Human Adipocytes and Diverts Glucose to Serine Oxidation in the One-Carbon Cycle Energy Producing Pathway.Investigation of acetone, butanol and carbon dioxide as new breath biomarkers for convenient and noninvasive diagnosis of obstructive sleep apnea syndrome.Limited OXPHOS capacity in white adipocytes is a hallmark of obesity in laboratory mice irrespective of the glucose tolerance status.Expression of conventional and novel glucose transporters, GLUT1, -9, -10, and -12, in vascular smooth muscle cellsRole of hypoxia in obesity-induced disorders of glucose and lipid metabolism in adipose tissueHypoxia in adipose tissue: a basis for the dysregulation of tissue function in obesity?Cellular hypoxia and adipose tissue dysfunction in obesity.Emerging evidence of the physiological role of hypoxia in mammary development and lactation.Hypoxia induces a HIF-1α dependent signaling cascade to make a complex metabolic switch in SGBS-adipocytes.Oxidative stress and inflammation interactions in human obesity.The role of fructose transporters in diseases linked to excessive fructose intake.Hypoxia and adipose tissue function and dysfunction in obesity.OSAS-related inflammatory mechanisms of liver injury in nonalcoholic fatty liver disease.Effects of LPS and dietary free fatty acids on MCP-1 in 3T3-L1 adipocytes and macrophages in vitroNiemann-Pick type C2 deficiency impairs autophagy-lysosomal activity, mitochondrial function, and TLR signaling in adipocytes.Fructose metabolism, cardiometabolic risk, and the epidemic of coronary artery disease.Hypoxia reduces the response of human adipocytes towards TNFα resulting in reduced NF-κB signaling and MCP-1 secretion.Function and Dysfunction of Adipose Tissue.Aerobic exercise elevates markers of angiogenesis and macrophage IL-6 gene expression in the subcutaneous adipose tissue of overweight-to-obese adults.Fatty acids and hypoxia stimulate the expression and secretion of the adipokine ANGPTL4 (angiopoietin-like protein 4/ fasting-induced adipose factor) by human adipocytes.A microarray analysis of the hypoxia-induced modulation of gene expression in human adipocytes.
P2860
Q24307365-A8042574-B6DE-4F2F-8DEC-5B09BD76117CQ24644084-D959B753-2C25-4B3C-BA97-FC7A2FA8DD16Q26861253-436EC31E-EC5C-4F31-9FF2-8B713AFF387AQ34475764-B9725854-4496-41F8-B545-855BCFF8191EQ34963479-F2E23F0D-84E3-4727-B1CC-E6BB7B9F618DQ35099545-6A341B09-EFD6-4B46-9BEB-7EE1FA05F1C7Q35175008-46EDB3C9-A6BA-46F7-B747-05F4493BBCFCQ35576565-4732D79A-2901-4EEB-8585-FD78DA7A987AQ35743868-215D97EF-4902-43EA-A00C-6985E58AF85FQ35829909-4E238B44-6405-4ABE-9CC9-14FF408D8A11Q36019458-CC12CC48-02D6-495C-A858-1A46EDB544A4Q36038125-ACFA545E-3216-4ABC-8D0E-BF34BC09D858Q36899626-5A7DBFA8-388A-404C-92E9-58D372EFC150Q37102864-5347FC1F-2173-47AD-BD89-D5C1B74C15ADQ37132401-15D8205B-9F2C-48EB-A96D-9B3625CC6AFBQ37583982-C7F52FEF-BF86-4C27-A473-D4FCCE93E3DAQ37593365-4340979F-F1D4-43AB-8890-D9D7DB542DD7Q37671425-DE44AA7D-E131-4AAD-A475-0219A91149ACQ37986642-443A7AA7-6901-4731-8694-EFF35F8466C5Q38058076-A419E955-610B-4F36-AF12-AB74B4F1F49BQ38072900-494A6407-F9ED-4179-AC96-7B38EAEE1E04Q38421096-9A6CE0AF-9A77-42A6-92A0-174A8AFC82E6Q38600016-6B545D3F-6F31-408F-A106-8DD689822E0DQ38758703-F387527E-009E-4C14-9FC8-5CAF30E02765Q41986990-84512202-FBF2-4959-9DFC-0F1FA25BF60BQ42496114-BCD8ABAD-42F0-474E-957E-7E47367F5FCBQ47950561-252BFAB6-9406-429C-9088-6D5DE8A6EEF3Q48256654-4C0E5BE4-8072-49BA-B5EF-B7B5AC843B69Q51371531-39505BE9-ADDD-4C60-B759-A04C3FEF4062Q54528275-D82554C6-EC48-4FBF-8E56-4FDB67D824C9
P2860
Hypoxia increases expression of selective facilitative glucose transporters (GLUT) and 2-deoxy-D-glucose uptake in human adipocytes.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年学术文章
@wuu
2007年学术文章
@zh-cn
2007年学术文章
@zh-hans
2007年学术文章
@zh-my
2007年学术文章
@zh-sg
2007年學術文章
@yue
2007年學術文章
@zh
2007年學術文章
@zh-hant
name
Hypoxia increases expression o ...... se uptake in human adipocytes.
@ast
Hypoxia increases expression o ...... se uptake in human adipocytes.
@en
type
label
Hypoxia increases expression o ...... se uptake in human adipocytes.
@ast
Hypoxia increases expression o ...... se uptake in human adipocytes.
@en
prefLabel
Hypoxia increases expression o ...... se uptake in human adipocytes.
@ast
Hypoxia increases expression o ...... se uptake in human adipocytes.
@en
P2093
P2860
P1476
Hypoxia increases expression o ...... se uptake in human adipocytes.
@en
P2093
Bohan Wang
I Stuart Wood
Paul Trayhurn
Silvia Lorente-Cebrián
P2860
P304
P356
10.1016/J.BBRC.2007.07.032
P407
P577
2007-07-18T00:00:00Z