UMLS:C0004153 - FACTA Search

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Query: UMLS:C0004153 (atherosclerosis)
77,401 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The promoter region of the endothelial cell nitric oxide synthase (ecNOS) gene contains potential response elements for transforming growth factor-beta 1 (TGF beta 1). TGF beta 1 plays an important role in the pathogenesis of atherosclerosis, vascular hypertrophy, and angiogenesis. We therefore sought to determine whether TGF beta 1 might modulate ecNOS expression in bovine aortic endothelial cells (BAEC). TGF beta 1 increased ecNOS mRNA in a dose-dependent manner. TGF beta 1 also increased ecNOS protein content. The production of nitrogen oxides (NOx), assessed by chemiluminescence, and nitric oxide synthase activity, assessed by arginine/citrulline conversion were increased in TGF beta 1-treated cells. Transcriptional activity of the 5'-flanking promoter region of the ecNOS gene was increased by TGF beta 1, as assessed by transfection with promoter/luciferase constructs. Deletion analysis suggested that the TGF beta 1-response element was present between nucleotides -1269 and -935 from the first transcription start site, in which a putative nuclear factor-1 (NF-1) binding site existed. Gel shift assays showed that nuclear protein(s), immunologically similar to CCAAT transcription factor/NF-1, bound to the putative NF-1 binding site in a sequence-specific manner. Mutation of the putative NF-1 binding site in the promoter/luciferase construct significantly decreased the responsiveness to TGF beta 1. In conclusion, TGF beta 1 increases ecNOS expression associated with an increase in production of NO in BAEC. This response is probably mediated by transcriptional activation of the ecNOS gene promoter.
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PMID:Molecular regulation of the bovine endothelial cell nitric oxide synthase by transforming growth factor-beta 1. 754

Apolipoprotein E (apoE) is a major constituent of plasma lipoprotein that functions in lipid transport and redistribution (reverse cholesterol transport) and probably plays an important role in inhibiting the development and/or progression of atherosclerosis. While cis-acting regions involved in basal and tissue-specific control of the apoE gene have been identified by promoter mapping studies, much less is known about factors that regulate the gene. In this study, we demonstrate that the region between -94 and -84 upstream of transcriptional start site of the human apoE gene contains a binding site for the transcriptional repressor factor BEF-1, a tyrosine-phosphorylated nuclear protein that was first identified in HeLa cells. Using gel retardation assays, we show that HeLa cell-derived BEF-1 binds the apoE BEF-1 homology, and this binding can be competed with the prototype BEF-1 sequence, but not by a mutated sequence. Furthermore, we demonstrate that the apoE- producing human liver HepG2 cell produces significant levels of BEF-1, which could bind to both the prototype BEF-1 sequence and the apoE homology, and be competed equivalently with cold BEF-1 or apoE homology. To determine if BEF-1 affected the expression of apoE, we performed competition experiments using plasmids containing the intact or mutated BEF-1 homology. The introduction of the intact BEF-1 site into HepG2 cells resulted in an induction of apoE mRNA, whereas control and mutated BEF-1-containing plasmids had no significant effect. We also found that increasing the level of nuclear BEF-1 by treatment of cells with orthovanadate resulted in a reduction in the level of apoE mRNA. Overall, our data suggest that the endogenous apoE gene in the human HepG2 cell line is repressed by the trans-acting influence of nuclear factor BEF-1.
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PMID:The human apolipoprotein E gene is negatively regulated in human liver HepG2 cells by the transcription factor BEF-1. 779 34

There is a common polymorphism in the promoter sequence of the human stromelysin-1 gene, with one allele having a run of six adenosines (6A) and the other five adenosines (5A). We have previously reported, in a 3-year follow-up study of patients with coronary atherosclerosis, that those patients who are homozygous for the 6A allele show a more rapid progression of the disease. In this study, we have investigated whether the 5A/6A promoter polymorphism plays a role in the regulation of stromelysin-1 gene expression. In transient transfection experiments, a stromelysin-1 promoter construct with 6A at the polymorphic site was found to express less of the chloramphenicol acetyltransferase reporter gene than a construct containing 5A. Electrophoretic mobility shift assay and DNase I footprinting revealed the interaction of one or more nuclear protein(s) with the DNA sequence at the 5A/6A polymorphic site. The binding of one of the nucleoprotein factors was more readily detectable with an oligonucleotide probe corresponding to the 6A allele as compared with a probe corresponding to the 5A allele. Replacing the core binding sequence with a random DNA sequence abolished the interaction between the nuclear protein(s) and the probe and also increased reporter gene expression in transiently transfected cells. Thus, the common 5A/6A polymorphism of the human stromelysin-1 promoter appears to play an important role in regulating stromelysin-1 gene expression and may be involved in the progression of coronary heart disease.
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PMID:Progression of coronary atherosclerosis is associated with a common genetic variant of the human stromelysin-1 promoter which results in reduced gene expression. 866 92

Phenotypic modulation of vascular smooth muscle cells (SMCs) plays a central role in the pathogenesis of atherosclerosis. Natriuretic peptide receptor-C (NPR-C) is highly expressed in vascular SMCs in the experimental arteriosclerotic neointimal area as well as in cultured SMCs, suggesting that increased expression of the NPR-C gene is related to the phenotypic alteration of vascular SMCs. To elucidate the molecular mechanisms and to identify the essential DNA sequences in NPR-C gene expression, a genomic clone containing over 8 kilobases of the 5'-flanking region of the human NPR-C gene has been isolated. Sequence analysis revealed that a number of putative regulatory elements including unusual tandem repeated AP-2-like sequences were observed in the 5'-flanking region. Primer extension and ribonuclease protection analyses revealed that transcription of the human NPR-C gene starts from two major regions. Promoter analysis using deletion constructs in human cells, highly producing NPR-C transcripts, showing that the region (from - 33 to + 13 relative to the transcription start point) had a potential promoter activity suggested that the region from -33 to + 13, containing a pyrimidine-rich stretch composed of four CTTTTT-repeated sequences, is sufficient for the proximal promoter activity. Moreover, three distinct DNA sequences surrounding the transcription start site (P1, from -60 to -33; P2, from + 14 to +40; P3, from +41 to +66) were revealed to be functional as a cis-acting positive enhancer, and a nuclear protein(s) from the human cells was demonstrated to specifically bind to the sequences, respectively. However, promoter analysis has shown that the P2 and P3 sequences could not activate the human NPR-C promoter in a synergistic manner. On the basis of deoxyribonuclease I footprinting analysis showing that a DNA element from +48 to +60 within the P3 sequence is preferentially protected, the P3 sequence appears to contain a potential regulatory element involved in NPR-C gene expression. The present study demonstrated the structure of the 5'-regulatory region of the human NPR-C gene and multiple cis-acting positive sequences closely located around the transcription start points with an important role in regulation of human NPR-C gene expression.
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PMID:Isolation and characterization of the 5'-flanking regulatory region of the human natriuretic peptide receptor C gene. 949 76

Cardiovascular diseases are the leading cause of morbidity and mortality in diabetes. Lipoprotein lipase (LPL), a major secretory product of macrophages, has been suggested to play a key role in the development of atherosclerosis. In the present study, we evaluated the effect of high glucose on macrophage LPL mRNA expression and secretion. Exposure of murine J774 macrophages to high D-glucose concentrations (20-30 mmol/l) resulted in a dramatic upregulation of LPL mRNA expression and immunoreactive mass. This effect was not observed when these cells were incubated in the presence of L-glucose or mannitol. High glucose concentrations were also found to enhance LPL gene expression and immunoreactive mass in human monocyte-derived macrophages. J774 cells cultured in a high glucose environment expressed increased c-fos mRNA levels. Treatment of these cells with c-fos antisense DNA or protein kinase C inhibitor inhibited the stimulatory effect of glucose on LPL mRNA expression. In J774 cells exposed to high glucose concentrations, enhanced nuclear protein binding to the AP-1-responsive region of the murine LPL promoter was observed, while LPL mRNA stability remained unchanged. Overall, these results demonstrate that high glucose upregulates macrophage LPL gene expression and immunoreactive mass and that this effect involves transcriptional events.
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PMID:Stimulatory effect of glucose on macrophage lipoprotein lipase expression and production. 951 50

Atherosclerosis is a fibroproliferative disease of the arterial intima. It was recently found that wild-type p53 (wt p53) accumulates in human atherosclerotic tissue. Wt p53 is a cell cycle regulator involved in DNA repair, DNA synthesis, cell differentiation, and apoptosis and might therefore make an important contribution to the cellularity of atherosclerotic plaques. The product of the MDM2 gene is a nuclear protein which forms a complex with p53, thereby inhibiting the negative regulatory effects of wt p53 on cell cycle progression. In order to address a potential role of the interaction of p53 with MDM2 for the regulation of cellularity in atherosclerotic tissue, 22 carotid atheromatous plaques from patients undergoing endarterectomy were studied to determine the presence of p53 immunoreactivity (IR), MDM2 IR, cell proliferation as evidenced by MIB1/Ki-67 IR and DNA fragmentation by in situ terminal transferase-mediated dUTP 3' end labelling (TUNEL), as a marker for apoptosis. p53 IR localized to areas with evidence of chronic inflammation (22/22) and was observed in virtually all cell types in 68.79 +/- 7.51 per cent of the nuclei. p53 staining in the control tissue from human internal mammary arteries was present in 0.2 +/- 0.29 per cent of the cells (P < or = 0.002). MDM2 IR was present in all cases (22/22) in macrophages and smooth muscle cells (SMCs) in 60.53 +/- 8.32 per cent of the nuclei (controls: 0.8 +/- 0.65 per cent, P < or = 0.002) and co-localized with p53 IR as shown by examination of adjacent sections and by double immunofluorescence labelling. Importantly, co-immunoprecipitation and western blot analysis revealed that p53 and MDM2 were physically associated, indicating that MDM2-p53 complex formation takes place in vivo in human atherosclerotic tissue. Positive TUNEL staining and MIB1/Ki-67 IR present in 3.01 +/- 1.27 per cent of the nuclei (controls: 0 per cent, P < or = 0.002) localized to the same plaque compartments as p53 IR and MDM2 IR. Thus, the fate of cells with p53 accumulation may depend on the interaction and the stoichiometry of the p53 and MDM2 proteins. Cells were indeed found with strong p53 accumulation and nuclear morphology typical for apoptosis and there were a few MIB1/Ki-67-positive cells with co-expression of MDM2, indicating a possible role for MDM2 in reversing the negative regulatory effects of p53 for cell cycle progression. The nuclear co-localization of p53 IR with MDM2 IR and the co-immunoprecipitation assay indicate the presence of p53-MDM2 complex formation in vivo in human atherosclerotic tissue. The destiny of individual p53 and MDM2-co-expressing cells either to undergo p53-dependent apoptosis or to re-enter the cycle of cell proliferation may depend on the relative ratios of the two proteins. p53 and MDM2 may therefore play an important role in regulating cellularity and inflammatory activity in human atherosclerotic plaques.
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PMID:Co-expression of p53 and MDM2 in human atherosclerosis: implications for the regulation of cellularity of atherosclerotic lesions. 977 85

Peroxisome proliferator-activated receptors (PPARs) are implicated in several metabolic disorders with altered glucose and lipid metabolism, including atherosclerosis and diabetes. In the present study, we evaluated the in vitro and ex vivo effects of high glucose concentrations on macrophage PPAR mRNA expression. Exposition of monocyte-derived macrophages isolated from healthy donors to a high glucose environment led to an increase in PPARalpha and PPARbeta mRNA expression. In contrast, this treatment significantly decreased human macrophage PPARgamma mRNA expression. Overexpression of PPARalpha and PPARbeta mRNA and inhibition of PPARgamma mRNA expression were also observed in monocyte-derived macrophages isolated from patients with type 2 diabetes. Because high glucose and PPARalpha agonists increase lipoprotein lipase (LPL) gene expression, the role of PPARalpha in the glucose-mediated upregulation of macrophage LPL gene expression was next evaluated. Incubation of murine J774 macrophages with high glucose concentrations increased the expression of PPARalpha at the mRNA and protein levels and enhanced nuclear protein binding to the peroxisome proliferator responsive element of the LPL promoter. Incubation of nuclear extracts in the presence of anti-PPARalpha and anti-PPARbeta antibodies decreased glucose-stimulated nuclear protein binding to the peroxisome proliferator responsive element. These results demonstrate that glucose is an important regulator of macrophage PPAR expression and suggest a role of PPARalpha and PPARbeta in the upregulation of macrophage LPL by glucose. Dysregulation of macrophage PPAR expression in type 2 diabetes may contribute, by altering arterial lipid metabolism and inflammatory response, to the accelerated atherosclerosis associated with diabetes.
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PMID:Differential regulation of macrophage peroxisome proliferator-activated receptor expression by glucose : role of peroxisome proliferator-activated receptors in lipoprotein lipase gene expression. 1063 6

Werner syndrome (WS) is a progeroid syndrome caused by autosomal recessive null mutations at the WRN locus. The WRN gene encodes a nuclear protein of 180 kD that contains both exonuclease and helicase domains. WS patients develop various forms of arteriosclerosis, particularly atherosclerosis, and medial calcinosis. The most common cause of death in Caucasian subjects with WS is myocardial infarction. Previous studies have identified specific polymorphisms within WRN that may modulate the risk of atherosclerosis. Population studies of the 1074Leu/Phe and 1367Cys/Arg polymorphisms were undertaken to evaluate the role of WRN in atherogenesis. Frequencies of the 1074Leu/Phe polymorphisms in Finnish and Mexican populations revealed an age-dependent decline of 1074Phe/Phe genotype. In Mexican newborns, but not in Finnish newborns, the 1074Leu/Phe and 1367Cys/ Arg polymorphisms were in linkage disequilibrium. Among coronary artery disease subjects, there was a tendency for the 1074Phe allele to be associated with coronary stenosis in a gene dose-dependent manner. Furthermore, the 1367Arg/Arg genotype predicted a lower degree of coronary artery occlusion, as measured by NV50, when compared to the 1367Cys/Cys or 1367Cys/Arg genotypes. However, these tendencies did not achieve statistical significance. Samples from Mexican patients with ischemic stroke showed a trend of haplotype frequencies different from that in a control group of Mexican adults. These data support the hypothesis that WRN may mediate not only WS, but may also modulate more common age-related disorders and, perhaps, a basic aging process.
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PMID:Polymorphisms at the Werner locus: II. 1074Leu/Phe, 1367Cys/Arg, longevity, and atherosclerosis. 1118 93

Monocyte-derived macrophages play a central role in atherosclerotic lesion formation and potentially plaque destabilization by expression of matrix metalloproteinases (MMPs); however, mechanisms associated with stimulating MMP production are not clearly understood. EMMPRIN, which is expressed by human cancer cells and macrophages, present in human, mouse and rabbit atherosclerosis and noted to induce MMPs may be involved. A DNA fragment containing 1797 bp 5' upstream of the EMMPRIN gene and the transcription start site was generated by polymerase chain reaction and cloned into a luciferase reporter gene vector, pGL3-basic. The relative luciferase activities driven by this 5'-upstream fragment and a series of deletion mutants were measured in transiently transfected human and mouse macrophage THP-1 and Raw264.7 cells, respectively. A fragment 471 bp upstream of the EMMPRIN coding region was sufficient to promote transcription, while a region from -1413 to -1024 bp suppressed activity. Further deletion analysis of the 471 bp fragment indicated that a 30 bp element from -142 to -112 bp, which contains binding sites for Sp1, AP1TFII and EGR-2, was important for EMMPRIN transcription in both THP-1 and Raw264.7 macrophages. Using electrophoretic mobility shift assays, the Sp1 element within 30 bp region specifically bound Sp1 and Sp3 transcription factors. Mutation of the Sp1 element at -122 to -116 bp of the EMMPRIN promoter significantly diminished promoter activity and formation of DNA-nuclear protein complex. Transient expression of Sp1 and/or Sp3 transcription factors in insect cells lacking the Sp family of transcription factors, stimulated EMMPRIN promoter activity in a synergistic manner. Together, these results indicate that both Sp1 and Sp3 associate with the functional Sp1 element on the EMMPRIN promoter and cooperate in the regulation of EMMPRIN gene expression in macrophages.
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PMID:Characterization of the promoter of human extracellular matrix metalloproteinase inducer (EMMPRIN). 1181 79

Peroxisome proliferator-activated receptors (PPARs) are transcriptional factors which mediate pleiotropic effects including regulation of genes involved in lipid metabolism and control of inflammation. In the present study, we measured the in vitro effects of PPAR alpha and gamma ligands on macrophage lipoprotein lipase (LPL) expression. Human monocyte-derived macrophages (MDM) were cultured for 1-3 days in the presence of PPAR alpha and gamma ligands. At the end of these incubation periods, extracellular LPL immunoreactive mass/activity and LPL mRNA levels were measured. Incubation of human MDM with PPAR alpha and gamma ligands stimulated, in a time- and dose-dependent manner, human MDM LPL mass and activity. These agents also significantly increased macrophage LPL mRNA expression. In THP-1 cells treated with PPAR alpha and gamma ligands, enhanced nuclear protein binding to the peroxisome proliferator responsive element (PPRE) of the human LPL promoter was observed. Furthermore, in these cells, a decreased rate of decay of LPL mRNA was documented. Overall, these results demonstrate that PPAR alpha and gamma activators increase macrophage LPL secretion. Given the proatherogenic effect of vascular wall LPL, better understanding of the role of PPARs in the regulation of macrophage LPL expression could lead to the development of new approaches in the prevention and treatment of atherosclerosis.
Atherosclerosis 2002 Nov
PMID:Peroxisome proliferator-activated receptor alpha and gamma agonists upregulate human macrophage lipoprotein lipase expression. 1220 75

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