UMLS:C0028754 - FACTA Search

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Query: UMLS:C0028754 (obesity)
124,988 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The human adipocyte-specific apM-1 gene encodes a secretory protein of the adipose tissue and seems to play a role in the pathogenesis of obesity. A 1.3 kb amount of the proximal promoter region has been cloned and analyzed for the presence of putative transcription factor binding sites. Several binding sites known to be involved in adipogenesis and regulation of adipocyte-specific genes (C/EBP, SREBP) are present. No TATA box, but a classical CCAAT box could be identified. To confirm functionality and cell specificity of the 1.3 kb promoter, a series of 5'-deleted fragments were ligated in front of the luciferase gene and the constructs were transfected into 3T3-L1 adipocytes. The reporter gene was effectively transcribed, as demonstrated by the expression of enzyme activity. The 5'-end of the human cDNA was completed by 5'-RACE-PCR. Several alternative transcription start sites were detected by RNase protection assay and primer extension analysis. In addition, an exon/intron boundary was mapped at the extreme 5'-end of the cDNA sequence. Genomic Southern blotting suggests that the human apM-1 gene is a single copy gene.
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PMID:Identification and characterization of the human adipocyte apM-1 promoter. 976 95

Plasminogen activator inhibitor type-1 (PAI-1) is a major physiological inhibitor of fibrinolysis, with its plasma levels correlating with the risk for myocardial infarction and venous thrombosis. The regulation of PAI-1 transcription by endothelial cells (ECs), a major source of PAI-1, remains incompletely understood. Adipocytes also produce PAI-1, suggesting possible common regulatory pathways between adipocytes and ECs. Peroxisomal proliferator-activated receptor-gamma (PPAR)gamma is a ligand-activated transcription factor that regulates gene expression in response to various mediators such as 15-deoxy-Delta12, 14-prostaglandin J2 (15d-PGJ2) and oxidized linoleic acid (9- and 13-HODE). The present study tested the hypotheses that human ECs express PPARgamma and that this transcriptional activator regulates PAI-1 expression in this cell type. We found that human ECs contain both PPARgamma mRNA and protein. Immunohistochemistry of human carotid arteries also revealed the presence of PPARgamma in ECs. Bovine ECs transfected with a PPAR response element (PPRE)-luciferase construct responded to stimulation by the PPARgamma agonist 15d-PGJ2 in a concentration-dependent manner, suggesting a functional PPARgamma in ECs. Treatment of human ECs with 15d-PGJ2, 9(S)-HODE, or 13(S)-HODE augmented PAI-1 mRNA and protein expression, whereas multiple PPARalpha activators did not change PAI-1 levels. Introduction of increasing amounts of a PPARgamma expression construct in human fibroblasts enhanced PAI-1 secretion from these cells in proportion to the amount of transfected DNA. Thus, ECs express functionally active PPARgamma that regulates PAI-1 expression in ECs. Our results establish a role for PPARgamma in the regulation of EC gene expression, with important implications for the clinical links between obesity and atherosclerosis.
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PMID:PPARgamma activation in human endothelial cells increases plasminogen activator inhibitor type-1 expression: PPARgamma as a potential mediator in vascular disease. 1007 56

Ephedrine and its alkaloids are used for the treatment of asthma, nasal congestion, and obesity. Ephedrine, with two chiral centers, exists as four isomers that exhibit direct and indirect effects on both alpha- and beta-adrenergic receptors (AR). Our main goal was to study the direct effects of the ephedrine isomers on human beta1-, beta2-, and beta3-AR expressed in Chinese hamster ovary cells. Previous work indicated that the ephedrine isomers are inactive as agonists and that 1R,2S-ephedrine is more potent than the 1S,2R-isomer as an antagonist of catecholamine-induced lipolysis in rat adipose tissue (Lee et al., J Pharmacol Exp Ther 190: 249-259, 1974). Stimulation of adenylyl cyclase, associated with cyclic AMP accumulations, was measured by a luciferase reporter gene assay. On human beta1-AR, the rank order of potency (EC50 values, maximal response relative to isoproterenol = 100%) was 1R,2S-ephedrine (0.5 microM, 68%) > 1S,2R-ephedrine (72 microM, 66%) > 1S,2S-pseudoephedrine (309 microM, 53%) = 1R,2R-pseudoephedrine (1122 microM, 53%). On human beta2-AR, the rank order of potency was 1R,2S-ephedrine (0.36 microM, 78%) > 1R,2R-pseudoephedrine (7 microM, 50%) > or = 1S,2S-pseudoephedrine (10 microM, 47%) > 1S,2R-ephedrine (106 microM, 22%). Only 1R,2S-ephedrine showed significant agonist activity on human beta3-AR with an EC50 = 45 betaM and a maximal response of 31%. Our studies demonstrated that (a) stereoselective and rank order differences exist among the direct effects of ephedrine isomers; (b) 1R,2S-ephedrine is the most potent of the four ephedrine isomers on all three human beta-AR; and (c) 1R,2S- ephedrine was nearly equipotent as a beta1-/beta2-AR agonist and the only isomer possessing weak partial agonist activity on beta3-AR.
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PMID:Direct effects of ephedrine isomers on human beta-adrenergic receptor subtypes. 1044 90

Peroxisome proliferator-activated receptor-gamma (PPARgamma) is a member of the nuclear hormone receptor superfamily of transcription factors and appears to be a key regulator of adipogenesis. Members of the thiazolidinedione class of insulin-sensitizing agents act as high-affinity ligands for PPARgamma, indicating that PPARgamma is also important in systemic insulin action. To determine whether Pro(12) --> Ala (P12A) mutation in PPARgamma gene contributes to the development of obesity or insulin sensitivity, we examined the effects of the P12A mutation on the function of PPARgamma by expression of the mutant protein in COS or 3T3-L1 cells. The abilities of the P12A mutant of PPARgamma to mediate both transcriptional activation of a luciferase reporter gene construct containing the peroxisome proliferator response element and adipogenesis induced by a thiazolidinedione drug were reduced compared with those of the wild-type protein. These results suggest that the P12A substitution in PPARgamma gene may be associated with abnormalities of adipose tissue formation and insulin sensitivity.
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PMID:Inhibitory effect of a proline-to-alanine substitution at codon 12 of peroxisome proliferator-activated receptor-gamma 2 on thiazolidinedione-induced adipogenesis. 1065 33

The peroxisomal 3-oxoacyl-CoA thiolase (thiolase) is the last enzyme involved in the beta-oxidation of fatty acids. The enzyme cleaves long chain fatty acyl-CoA to generate acetyl-CoA and shortened acyl-CoA. The enzyme is nuclear encoded, synthesized in the cytoplasm and transported into peroxisomes. The thiolase B gene is inducible by the peroxisome proliferator compounds, like other genes involved in beta-oxidation of fatty acids in peroxisomes. The importance of studying thiolase is that it generates acetyl-CoA which is the precursor for the synthesis of molecules like cholesterol and fatty acids. The structural and functional analysis of thiolase at molecular level may add to the knowledge of fatty acid metabolism and further the obesity phenomenon. It is known that several genes mediate lipid homeostasis in target organs like liver, adipose tissue and are regulated by peroxisome proliferator activated receptors (PPAR alpha and PPAR gamma). To elucidate the mechanism of induction of rat liver thiolase B gene, an upstream 2.8 kb fragment containing promoter element has been subcloned and partially sequenced. The sequence analysis revealed a putative PPRE (Peroxisome Proliferator Response Element) of AGACCT T TGAACC sequence at -681 to -668 [Kliever et al. (1992) Nature 358:771-774]. By transient expression of a luciferase reporter gene in HeLa cells, we conclude that the identified PPRE could be functional in induction of thiolase B gene, but other sequences of genes might be involved.
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PMID:Studies on regulation of the peroxisomal beta-oxidation at the 3-ketothiolase step. Dissection of the rat liver thiolase B gene promoter. 1070 52

Mice carrying dominant mutations at the agouti locus exhibit ectopic expression of agouti gene transcripts, obesity, and type II diabetes through unknown mechanisms. To gain insight into the role of agouti protein in modulating adiposity, we investigated regulation of a key lipogenic gene, fatty acid synthase (FAS) by agouti alone and in combination with insulin. Both agouti and insulin increase FAS activity in 3T3-L1 and in human adipocytes. Agouti and insulin independently and additively increase FAS activity in 3T3-L1 adipocytes. We further investigated the mechanism responsible for the agouti-induced FAS expression in these cells and demonstrated that both insulin (3-fold increase) and agouti (2-fold) increased FAS gene expression at the transcriptional level. Furthermore, insulin and agouti together exerted additive effects (5-fold increase) on FAS gene transcription. Transfection assays of FAS promoter-luciferase fusion gene constructs into 3T3-L1 adipocytes indicated that the agouti response element(s) is (are) located in the -435 to -415 region (-435/-415) of the FAS promoter. Nuclear proteins binding to this novel sequence are adipocyte specific. Thus the agouti response sequences mapped to a region upstream of the insulin-responsive element (which we previously reported to be located at -67/-52), consistent with additive effects of these two factors on FAS gene transcription.
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PMID:Transcriptional regulation of the adipocyte fatty acid synthase gene by agouti: interaction with insulin. 1101 11

Leptin is a 16-kDa nonglycosylated hormone that is produced in mature adipocytes and which acts primarily in the hypothalamus to reduce food intake and body weight. While the rat is a representative laboratory animal model in obesity research, so far recombinant rat leptin was not available. In the present study, rat leptin was recombinantly expressed in Escherichia coli and purified in a bioactive form to provide a further tool for the analysis of leptin functions in rats. Leptin cDNA was cloned by RT-PCR from total RNA of SD rat adipocytes, and overexpression was achieved by subcloning the leptin cDNA into the pET-29a vector, which enabled the recombinant expression of rat leptin as an S-peptide-tagged fusion protein. Since the fusion proteins were expressed in inclusion bodies, after purification of the insoluble fraction, leptin proteins were refolded by sequential dialysis into physiological buffers. The biological activity of this recombinant protein was confirmed in proliferation assays using leptin-sensitive rat insulinoma cells as well as a newly developed leptin-sensitive luciferase assay system. The specific binding of the S-tagged leptin to leptin-receptor-expressing cells was further shown by flow cytometry using fluorescence-conjugated S-proteins.
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PMID:Recombinant expression of biologically active rat leptin in Escherichia coli. 1138

Leptin is small cytokine-like protein that is involved in appetite and body weight regulation. Due to increased interest in using leptin as an anti-obesity reagent, recombinant forms of leptin have been produced for several species, including humans, mice, rats, pigs, dogs, sheep etc. The biological activities of such recombinant proteins were determined using various in vitro or in vivo systems; however so far, no specific assay system for rat leptin is available. Since rats are representative animal models in obesity research, the establishment of a biological assay system for determining rat leptin activity has been eagerly awaited. This study describes the generation of such a system using chinese hamster ovary (CHO)-cells that were transfected with the long form of the rat leptin receptor isoform, OB-Rb, whereby a signal transduces and activators of transcription-sensitive luciferase reporter system is further employed to quantify the leptin-mediated signals. This system is the first rat-specific leptin bioassay system that has been reported. It is expected that this assay will be used to further quantify and determine leptin activity from various biological fluids and sources.
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PMID:Determination of rat leptin activity in vitro using a novel luciferase reporter assay. 1156 23

Protein tyrosine phosphatase 1B (PTP1B) has recently been implicated in the regulation of body weight. A surprising phenotype of PTP1B-deficient mice is their resistance to diet-induced obesity. Since leptin is one of the primary hormones involved in the regulation of body weight and energy homeostasis, we investigated whether PTP1B affects leptin receptor (lepR) signaling directly. A mouse hypothalamic cell line, GT1-7, was established as a suitable cell model for the study of leptin signaling. Stimulation of GT1-7 cells by leptin caused tyrosine phosphorylation of endogenous STAT3 and activation of a STAT-dependent luciferase reporter gene. Over-expression of PTP1B in GT1-7 cells resulted in a dose-dependent decrease in endogenous JAK2 and STAT3 tyrosine phosphorylation compared with cells transfected with lepR alone. Consistent with inhibition of JAK-STAT signaling, PTP1B over-expression caused a dose-dependent decrease in leptin-induced, STAT-dependent luciferase reporter gene activation in GT1-7 cells. Furthermore, over-expression of PTP1B led to a decrease in mRNA accumulation of suppressor-of-cytokine-signalling-3 (SOCS3) and c-fos, genes that are acutely induced by leptin. Using gene microarray analysis, we confirmed that PTP1B reduces the level of gene expression of SOCS3 and showed that the expression level of other leptin-regulated genes was affected. Genes up-regulated by leptin were decreased in cells over-expressing PTP1B. Conversely, the expression of genes down-regulated by leptin was enhanced by PTP1B over-expression in GT1-7 cells. Our findings indicate that PTP1B is a negative regulator of leptin signaling and suggest that PTP1B inhibitors might be efficacious in the treatment of obesity by increasing leptin sensitivity.
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PMID:Protein tyrosine phosphatase 1B negatively regulates leptin signaling in a hypothalamic cell line. 1235 77

HMGA proteins are thought to be causally involved in the progression of different diseases, including benign and malignant tumors, obesity, arteriosclerosis, and restenosis. As HMGA proteins are architectural transcription factors, their binding to DNA leads to changes in DNA-conformation modulating the environment for the assembly and function of transcriptional complexes, thus influencing the expression of a huge variety of genes. Despite the emerging role of HMGA proteins for important diseases, only limited information is available about mechanisms regulating the expression of the HMGA2 gene. In this report, 2240 bp of the 5' flanking region of the HMGA2 gene were functionally analyzed by luciferase assay experiments. Besides the identification of novel positive and negative regulatory elements, it was shown that transcription is initiated from two independent promoter regions within cell lines HeLa, MCF7, and L14TSV40. Furthermore, a functional polymorphic dinucleotide repeat (TCTCT(TC)(n)) 500 bp upstream of the ATG translational start codon was found to regulate strongly the human HMGA2 promoter with an activation pattern that correlates to its TC-repeat length.
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PMID:Human HMGA2 promoter is coregulated by a polymorphic dinucleotide (TC)-repeat. 1256 68

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