Fibrates increase human apolipoprotein A-II expression through activation of the peroxisome proliferator-activated receptor
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The Role of PPARs in CancerComparative analysis of gene regulation by the transcription factor PPARalpha between mouse and humanTranscriptional regulation of apolipoprotein C-III gene expression by the orphan nuclear receptor RORalphaNovel repressor regulates insulin sensitivity through interaction with Foxo1Sorting out the roles of PPAR alpha in energy metabolism and vascular homeostasisIntegrated physiology and systems biology of PPARαThe transcription factor paired-related homeobox 1 (Prrx1) inhibits adipogenesis by activating transforming growth factor-β (TGFβ) signalingTranscriptional regulation of lipid metabolism by fatty acids: a key determinant of pancreatic beta-cell functionIs peroxisome proliferation an obligatory precursor step in the carcinogenicity of di(2-ethylhexyl)phthalate (DEHP)?Novel bile acid therapeutics for the treatment of chronic liver diseasesLiver X receptor and peroxisome proliferator-activated receptor as integrators of lipid homeostasis and immunityApolipoprotein A5, a crucial determinant of plasma triglyceride levels, is highly responsive to peroxisome proliferator-activated receptor alpha activatorsThe organization, promoter analysis, and expression of the human PPARgamma geneRetinoids increase human apolipoprotein A-11 expression through activation of the retinoid X receptor but not the retinoic acid receptorHigh density lipoprotein structural changes and drug response in lipidomic profiles following the long-term fenofibrate therapy in the FIELD substudyHepatocyte nuclear factor 4alpha (nuclear receptor 2A1) is essential for maintenance of hepatic gene expression and lipid homeostasisp300 interacts with the N- and C-terminal part of PPARgamma2 in a ligand-independent and -dependent manner, respectivelyThe murine and human cholesterol 7alpha-hydroxylase gene promoters are differentially responsive to regulation by fatty acids mediated via peroxisome proliferator-activated receptor alphaPPARs in obesity-induced T2DM, dyslipidaemia and NAFLD.Clofibrate causes an upregulation of PPAR-{alpha} target genes but does not alter expression of SREBP target genes in liver and adipose tissue of pigs.A potent PPARalpha agonist stimulates mitochondrial fatty acid beta-oxidation in liver and skeletal muscle.Genome-wide association study of plasma polyunsaturated fatty acids in the InCHIANTI Study.Efficient hepatocyte engraftment and long-term transgene expression after reversible portal embolization in nonhuman primates.FADS Gene Polymorphisms, Fatty Acid Desaturase Activities, and HDL-C in Type 2 DiabetesRole of Esrrg in the fibrate-mediated regulation of lipid metabolism genes in human ApoA-I transgenic miceRegulation of lipid and lipoprotein metabolism by PPAR activators.Fenofibrate: a review of its lipid-modifying effects in dyslipidemia and its vascular effects in type 2 diabetes mellitus.Setting the course for apoAII: a port in sight?CNX-013-B2, a unique pan tissue acting rexinoid, modulates several nuclear receptors and controls multiple risk factors of the metabolic syndrome without risk of hypertriglyceridemia, hepatomegaly and body weight gain in animal models.The Role of PPARα Activation in Liver and Muscle.Atherogenic dyslipidemia and diabetes mellitus: what's new in the management arena?Effects of the PPARα Agonist and Widely Used Antihyperlipidemic Drug Gemfibrozil on Hepatic Toxicity and Lipid Metabolism.Effects of the new dual PPAR α/δ agonist GFT505 on lipid and glucose homeostasis in abdominally obese patients with combined dyslipidemia or impaired glucose metabolism.FADS1 FADS2 gene cluster, PUFA intake and blood lipids in children: results from the GINIplus and LISAplus studiesAspirin influences megakaryocytic gene expression leading to up-regulation of multidrug resistance protein-4 in human platelets.Multiple parameters determine the specificity of transcriptional response by nuclear receptors HNF-4, ARP-1, PPAR, RAR and RXR through common response elements.Molecular mechanisms of fenofibrate-induced metabolic catastrophe and glioblastoma cell death.Peroxisome proliferator-activated receptor alpha is involved in the regulation of lipid metabolism by ginseng.PPAR-alpha effects on the heart and other vascular tissues.Peroxisome proliferator-activated receptor gamma induces apoptosis and inhibits autophagy of human monocyte-derived macrophages via induction of cathepsin L: potential role in atherosclerosis.
P2860
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P2860
Fibrates increase human apolipoprotein A-II expression through activation of the peroxisome proliferator-activated receptor
description
1995 nî lūn-bûn
@nan
1995年の論文
@ja
1995年論文
@yue
1995年論文
@zh-hant
1995年論文
@zh-hk
1995年論文
@zh-mo
1995年論文
@zh-tw
1995年论文
@wuu
1995年论文
@zh
1995年论文
@zh-cn
name
Fibrates increase human apolip ...... roliferator-activated receptor
@ast
Fibrates increase human apolip ...... roliferator-activated receptor
@en
type
label
Fibrates increase human apolip ...... roliferator-activated receptor
@ast
Fibrates increase human apolip ...... roliferator-activated receptor
@en
prefLabel
Fibrates increase human apolip ...... roliferator-activated receptor
@ast
Fibrates increase human apolip ...... roliferator-activated receptor
@en
P2093
P2860
P50
P356
P1476
Fibrates increase human apolip ...... roliferator-activated receptor
@en
P2093
Fruchart JC
Schoonjans K
P2860
P304
P356
10.1172/JCI118118
P407
P577
1995-08-01T00:00:00Z