Fat caves: caveolae, lipid trafficking and lipid metabolism in adipocytes.
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Molecular composition and ultrastructure of the caveolar coat complexCaveolin interaction governs Kv1.3 lipid raft targeting.The cell biology of fat expansionCaveolin-1 deficiency leads to increased susceptibility to cell death and fibrosis in white adipose tissue: characterization of a lipodystrophic modelCholesterol depletion in adipocytes causes caveolae collapse concomitant with proteosomal degradation of cavin-2 in a switch-like fashionPTRF/Cavin-1 promotes efficient ribosomal RNA transcription in response to metabolic challengesCaveolin-1 Sensitivity of Excitatory Amino Acid Transporters EAAT1, EAAT2, EAAT3, and EAAT4.Dynamic caveolae exclude bulk membrane proteins and are required for sorting of excess glycosphingolipids.Polymerase I and transcript release factor (PTRF) regulates adipocyte differentiation and determines adipose tissue expandability.Cavin-3 knockout mice show that cavin-3 is not essential for caveolae formation, for maintenance of body composition, or for glucose tolerance.Accumulation of polychlorinated biphenyls in adipocytes: selective targeting to lipid droplets and role of caveolin-1.Caveolae protect endothelial cells from membrane rupture during increased cardiac outputCaveolins/caveolae protect adipocytes from fatty acid-mediated lipotoxicityFrom PDE3B to the regulation of energy homeostasisRole of adipose specific lipid droplet proteins in maintaining whole body energy homeostasisRecent insights into the cell biology of thyroid angiofollicular units.Pleiotropic effects of cavin-1 deficiency on lipid metabolism.Caveolae provide a specialized membrane environment for respiratory syncytial virus assembly.Caveolin-1 as a promoter of tumour spreading: when, how, where and why.Balancing the fat: lipid droplets and human disease.Myoferlin regulates cellular lipid metabolism and promotes metastases in triple-negative breast cancer.Tagging strategies strongly affect the fate of overexpressed caveolin-1.Superresolution imaging--caveolae, caveolins, mitochondria, and function in heartSWELL1 is a regulator of adipocyte size, insulin signalling and glucose homeostasis.Knockdown of PTRF ameliorates adipocyte differentiation and functionality of human mesenchymal stem cells.Acetylation of Cavin-1 Promotes Lipolysis in White Adipose Tissue.Characterization of a caveolin-1 mutation associated with both pulmonary arterial hypertension and congenital generalized lipodystrophy.Myocyte membrane and microdomain modifications in diabetes: determinants of ischemic tolerance and cardioprotection.Adipocyte size and cellular expression of caveolar proteins analyzed by confocal microscopy.Erchen Decoction Ameliorates Lipid Metabolism by the Regulation of the Protein CAV-1 and the Receptors VLDLR, LDLR, ABCA1, and SRB1 in a High-Fat Diet Rat Model
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Fat caves: caveolae, lipid trafficking and lipid metabolism in adipocytes.
description
article científic
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article scientifique
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articolo scientifico
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artigo científico
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bilimsel makale
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scientific article published on 17 May 2011
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vedecký článok
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vetenskaplig artikel
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videnskabelig artikel
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vědecký článek
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name
Fat caves: caveolae, lipid trafficking and lipid metabolism in adipocytes.
@en
Fat caves: caveolae, lipid trafficking and lipid metabolism in adipocytes.
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type
label
Fat caves: caveolae, lipid trafficking and lipid metabolism in adipocytes.
@en
Fat caves: caveolae, lipid trafficking and lipid metabolism in adipocytes.
@nl
prefLabel
Fat caves: caveolae, lipid trafficking and lipid metabolism in adipocytes.
@en
Fat caves: caveolae, lipid trafficking and lipid metabolism in adipocytes.
@nl
P2860
P1476
Fat caves: caveolae, lipid trafficking and lipid metabolism in adipocytes.
@en
P2860
P304
P356
10.1016/J.TEM.2011.04.001
P577
2011-05-17T00:00:00Z