Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0019204 (hepatocellular carcinoma)
 71,386 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

"Spot 14" is a nuclear protein that is rapidly induced by thyroid hormone (T3) and dietary carbohydrate in liver. We used an antisense oligonucleotide to inhibit induction of spot 14 protein by T3 and glucose in primary cultures of rat hepatocytes to test the hypothesis that the protein could function in the regulation of lipid synthesis. Spot 14 protein was undetectable in hepatocytes maintained in 5.5 mM glucose without T3, and was induced within 4 h after addition of 27.5 mM glucose and 50 nM T3 to the culture medium, reaching a maximal level within 24 h. Accumulation of spot 14 protein was markedly inhibited in hepatocytes transfected with a spot 14 antisense oligonucleotide, but not in those treated with a control oligonucleotide. Transfection of the antisense, but not control, oligonucleotide also abrogated the increase in lipogenesis induced by T3 and glucose. Reduced triglyceride formation accounted for the diminished net lipid synthesis. In contrast to lipogenesis, glucose uptake was not significantly affected by the transfections. Antisense transfection inhibited the induction of both ATP-citrate lyase and fatty acid synthase immunoreactivities, as well as malic enzyme activity, indicating that the observed reduction in lipogenesis could be explained by diminished cellular content of lipogenic enzymes. Reduced malic enzyme activity in antisense-transfected hepatocytes was accompanied by lowered relative abundance of malic enzyme mRNA, suggesting that the antisense effects on lipogenic enzymes were mediated at the pretranslational level. The oligonucleotides did not significantly affect lipogenesis in a rat hepatoma cell line that does not express detectable spot 14 mRNA or protein. These data directly implicate the spot 14 protein in the transduction of hormonal and dietary signals for increased lipid metabolism in hepatocytes.
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PMID:Direct evidence for a role of the "spot 14" protein in the regulation of lipid synthesis. 762 69

Here we show that insulin may play a role in the diet-induced regulation of the rat fatty acid synthase (FAS; EC 2.3.1.85). Transient transfection of human and rat hepatoma cell lines with successively deleted FAS/CAT promoter fusion plasmids was used to determine the effect of insulin on FAS promoter activity. Our results indicate the existence of cis-acting insulin-responsive elements in the FAS promoter; the position of one of these is coincident with the position of a previously determined diet-induced DNAse I hypersensitive site (HSi-1) at approximately -500 bp relative to the transcription start site of FAS mRNA.
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PMID:Insulin-responsive regions of the rat fatty acid synthase gene promoter. 809 78

We have previously reported induction of fatty acid synthase (FAS) gene expression by insulin and adipocyte differentiation in 3T3-L1 cells. In order to identify sequences responsible for insulin regulation of the FAS gene, chimaeric constructs containing serial deletions of the 5'-flanking region of the rat FAS gene ligated to the chloramphenicol acetyltransferase (CAT) reporter gene were prepared and transfected into 3T3-L1 cells. Plasmids containing 2100 (-2100CAT), 1400 (-1400CAT), 1009 (-1009CAT) and 332 (-332CAT) bp of FAS 5' flanking sequences exhibited comparable basal CAT activities in 3T3-L1 preadipocytes. This activity was 3-fold higher when these constructs were transiently transfected into 3T3-L1 adipocytes. Stably transfected 3T3-L1 cells also exhibited a 3-fold increase in CAT activity upon adipocyte differentiation, indicating that sequences required for the differentiation-dependent increase in FAS expression are located within the 332 bp promoter. Treatment with 10 nM insulin increased CAT activity by 2.1 +/- 0.2-, 2.6 +/- 0.1-, 2.0 +/- 0.2- and 1.7 +/- 0.2-fold respectively in 3T3-L1 adipocytes transiently transfected with -2100CAT, -1400CAT, -1009CAT and -332CAT plasmids. CAT activity was increased by 3.0 +/- 0.3- and 3.5 +/- 0.6-fold respectively by insulin treatment in adipocytes stably transfected with -2100CAT and -1009CAT plasmids. When insulin-responsive H4IIE hepatoma cells were transiently transfected with -2100CAT, -1400CAT, -1009CAT and -332CAT plasmids and then treated with 10 nM insulin, CAT activity increased by 3.1-, 3.1 +/- 0.8-, 3.0 +/- 0.7- and 2.3 +/- 0.5-fold respectively in serum-free media, and by 2.6 +/- 0.4-, 3.3 +/- 0.9-, 3.1 +/- 0.4- and 2.9 +/- 0.6-fold respectively in the presence of 0.5% serum. These results indicate that sequences responsible for insulin regulation of FAS gene are also located within 332 bp of the transcription start site.
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PMID:Regulation of fatty acid synthase gene transcription. Sequences that confer a positive insulin effect and differentiation-dependent expression in 3T3-L1 preadipocytes are present in the 332 bp promoter. 831 7

The antagonistic effect of cAMP on the insulin-induced expression of fatty acid synthase (FAS) in liver could be mimicked in vitro using H4IIE hepatoma cells, both by measuring the response of the endogenous FAS gene and by assaying expression of transfected reporter genes containing promoter elements of the FAS gene. 5'-Deletion analysis and replacement mutagenesis revealed that an essential element required for cAMP antagonism of the insulin effect is an inverted CCAAT box located between nucleotides -99 and -92. DNase I foot-printing and gel shift analysis revealed that this region can bind a protein present in nuclei of liver and spleen, organs that express high and undetectable levels of FAS, respectively. This protein is not a CCAAT/enhancerbinding protein, C/EBP. Thus, the FAS gene appears unusual in that the sequence element required for transcriptional regulation by cAMP is neither a cAMP response element (CRE) nor a binding site for AP-1, AP-2, or C/EBP. These results suggest that essential to the regulation of FAS transcription by cAMP is the interaction of an inverted CCAAT box motif with a constitutively produced trans-acting factor that either itself undergoes modification in response to cAMP or associated with a protein that is produced or modified by cAMP exposure.
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PMID:Identification of an inverted CCAAT box motif in the fatty-acid synthase gene as an essential element for modification of transcriptional regulation by cAMP. 856 94

The gene for fatty acid synthase (FAS), which contains both GC-rich sequences and a TATA box in its promoter region, is expressed in a tissue-specific manner in response to developmental, nutritional and hormonal signals. Here we report the identification of sequence elements in the 5'-flanking region responsible for modulation of basal promoter activity. Transient transfection of H4IIE hepatoma cells and 3T3-30A5 preadipocytes with plasmids containing the chloroamphenicol acetyltransferase gene driven by FAS promoter sequences of different lengths revealed that two regions between nucleotides -249 and -30 contain elements capable of enhancing transcription. One of these positive regulatory elements was localized to nucleotides -241/-236 using DNase I footprinting, electrophoretic mobility-shift assays and mutagenesis. The sequence element is a typical GC box and the nuclear protein binding to this region appears immunochemically indistinguishable from Sp1. The second positive regulatory element, an inverted CCAAT box, was localized to nucleotides -98/-92 by electrophoretic mobility-shift assays and mutagenesis. A putative negative regulatory element, initially identified by reporter gene transfection experiments, was localized between nucleotides -319 and -301 by DNase I footprinting, electrophoretic mobility-shift assays and deletion mutagenesis; this region consists of 78% G residues. In conclusion, initiation of FAS transcription from a single start site is enhanced by the presence of an adjacent TATA motif, an inverted CCAAT box and an upstream binding site for the transcription factor Sp1; further modulation of transcription is achieved through complex interactions between these promoter elements and an upstream negative regulatory element.
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PMID:Transcriptional regulation of the rat fatty acid synthase gene: identification and functional analysis of positive and negative effectors of basal transcription. 869 72

Fatty acid synthase activity has been shown to be regulated mainly at the transcriptional level under both dietary and hormonal influences. As a first step towards elucidating the factors involved, we isolated and characterized chicken genomic clones encompassing the 5' part of the chicken fatty acid synthase gene and its flanking region. The entire region of the cloned DNA spans 30 kb, and the first three exons of the gene were mapped to a 6.3-kb genomic fragment. The transcription initiation site was determined after subcloning the cDNA which encodes the 5' end of the mRNA. The first exon, which was 129 bp long, was located approximately 5.3 kb upstream of the second exon, which contained the start codon. In the 5' flanking region, putative TATA and CAAT boxes were located 30 and 92 bp, respectively, upstream of the transcription initiation site. The 5' flanking region contained numerous sequences corresponding to consensus binding sites for transcription factors. Various lengths of flanking sequences extending up to 1028 bp upstream of the transcription initiation site and containing 100 bp of the first exon were linked to the bacterial chloramphenicol acetyltransferase gene; in this study, these constructs were analyzed in transient transfection assays in human hepatoma cells. The proximal 125-bp sequence upstream of the transcription start site was shown to be a basal promoter. The cloning and characterization of the chicken fatty-acid synthase gene provides some further insight into the regulation of fatty acid synthesis in birds as compared to mammals.
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PMID:Characterization of the chicken fatty acid synthase gene 5' part and promoter region. 884 94

Avian lipogenesis was studied in the chicken hepatocarcinoma LMH cell line. The differentiated and lipogenic status of these cells was evidenced by the presence of the albumin mRNA as well as of some mRNA coding for enzymes involved in lipogenesis (acetyl-CoA carboxylase, fatty acid synthase, delta 9 desaturase) and for apoproteins (apoprotein B and A1). These results were further confirmed by the analysis of triglyceride synthesis and secretion rates in growing cells. A time course analysis showed that triglyceride metabolism was affected by cell density. Hormone responsiveness of triglyceride production was also analyzed. Insulin, triiodothyronine and glucagon to a lesser extent were shown to regulate lipogenesis of LMH cells. The results were compared with those obtained in primary cultures of chicken hepatocytes.
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PMID:Triglyceride synthesis and secretion and lipogenesis implicated gene expression in the chicken hepatocarcinoma cell line LMH. 940 72

The purpose of this study was to investigate the molecular mechanism whereby insulin increases expression of a key de novo lipogenic gene, fatty acid synthase (FAS), in cultured human adipocytes and hepatoma cells. RNA isolated from cultured adipocytes or from Hep G2 cells treated with or without insulin (20 nM) was analyzed. In addition, run-on transcription assays and measurements of RNA half-life were performed to determine the controlled step in FAS gene regulation by insulin. We demonstrated that FAS mRNA was expressed in both Hep G2 cells and human adipocytes. Insulin induced an approximately five- and three-fold increase in FAS mRNA content in adipocytes and hepatoma cells, respectively. Similar regulation of FAS was observed in adipocytes from lean and obese human subjects. Furthermore, we demonstrated that the induction of human FAS expression by insulin was due to increased transcription rate of the FAS gene in human adipocytes, whereas mRNA stabilization accounted for increased FAS mRNA content in hepatoma cells. In conclusion, we report here for the first time expression of human FAS mRNA and its specific transcriptional induction by insulin in cultured human adipocytes.
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PMID:Insulin increases fatty acid synthase gene transcription in human adipocytes. 964 37

5-Amino-4-imidazolecarboxamide riboside (AICAR) is known to stimulate rat liver 5'-AMP-activated protein kinase (AMPK). AMPK is the mammalian homologue of Snf1p in yeast, involved in derepression of glucose-repressed genes. We used AICAR to test if AMPK could also play a role in the regulation of glucose-dependent genes in mammalian cells. At a concentration which induces phosphorylation-dependent inactivation of HMG-CoA reductase, AICAR blocked glucose activation of three glucose responsive genes, namely L-type pyruvate kinase (L-PK), Spot 14 and fatty acid synthase genes in primary cultured hepatocytes, but was without any action on glucose phosphorylation to glucose 6-phosphate and on expression of PEPCK, albumin and beta-actin genes. AICAR was also found to inhibit activation of the L-PK gene promoter by glucose in transiently transfected hepatoma cells. Therefore our results suggest that AMPK is probably involved in the glucose signal pathway regulating gene expression in the liver.
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PMID:The 5'-AMP-activated protein kinase inhibits the transcriptional stimulation by glucose in liver cells, acting through the glucose response complex. 970 98

Several putative insulin-responsive elements (IRE) in the fatty acid synthase (FAS) promoter have been identified and shown to be functional in adipocytes and hepatocytes. Here we report on the insulin-responsiveness in the rat hepatoma cell line H4IIE of four cis-elements in the FAS promoter: the FAS insulin-responsive elements, FIRE2 and FIRE3; the inverted CCAAT element, ICE; and the insulin/glucose-binding element, designated hepatic FIRE element, hFIRE, originally identified in rat hepatocytes. Using electrophoretic mobility shift assay (EMSA) competition experiments together with supershifts and in vitro transcription/translation we show that FIRE3 (-68/-58) binds not only the upstream stimulatory factors USF-1/USF-2 but also the CCAAT-binding factor CBF, also known as the nuclear factor Y, NF-Y. The putative IRE FIRE2, which shows sequence similarity to FIRE3, is located between -267 and -249. Gel retardation experiments indicate that USF-1 and USF-2 also bind to this element, which contains an imperfect E-box motif. Using the same approach we have shown that hFIRE binds the stimulatory proteins Sp1 and Sp3 in addition to CBF. Transient transfection experiments using FAS promoter constructs deleted for FIRE2 and FIRE3 demonstrate that neither of these elements mediates the insulin response of the FAS promoter in the rat hepatoma cell line H4IIE, however, ICE at -103/-87 is responsible for mediating the effect of the insulin antagonist cAMP. The hFIRE element located at -57/-34, in spite of its role in the glucose/insulin response in primary rat hepatocytes, is apparently not involved in the insulin regulation of the rat FAS promoter in H4IIE cells. The fact that the topology of the promoters of the FAS genes in rat, human, goose and chicken is conserved regarding CBF-binding sites and USF-binding sites implies an important role for these ubiquitously expressed transcription factors in the regulation of the FAS promoter.
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PMID:FIRE3 in the promoter of the rat fatty acid synthase (FAS) gene binds the ubiquitous transcription factors CBF and USF but does not mediate an insulin response in a rat hepatoma cell line. 1010 3


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