Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:1.14.14.3 (luciferase)
38,195 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The human transmembrane fms-like receptor tyrosine kinase Flt-1 is one of the receptors for vascular endothelial growth factor, a growth factor which induces endothelial proliferation and vascular permeability. Flt-1 is expressed specifically in endothelium and is likely to play a role in tumor angiogenesis and embryonic vascularization. To elucidate the molecular basis for the endothelial specific expression of Flt-1, the promoter region has been isolated and functionally characterized. The promoter region contains a TATA box, a GC-rich region, and putative transcription factor binding elements such as cAMP response element binding protein/activating transcription factor (CREB/ATF) and ets. Adenovirus-mediated transient expression of the flt-1 promoter/luciferase fusion gene in endothelial cells and other cell types demonstrated that a 1-kilobase fragment of the 5'-flanking region of flt-1 is involved in the endothelial-specific expression. A CREB/ATF element was found to be essential for basal transcription of the flt-1 expression. In addition, we also showed that the first intron negatively regulates flt-1 promoter activity. The flt-1 promoter will be useful in functional studies on the regulation of endothelial-specific gene expression and also as a tool in targeting the expression of exogenously introduced genes to the endothelium.
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PMID:A novel promoter for vascular endothelial growth factor receptor (flt-1) that confers endothelial-specific gene expression. 749 71

KDR/flk-1 is one of two receptors for vascular endothelial growth factor, a potent angiogenic peptide. KDR/flk-1 is an early marker for endothelial cell progenitors, and its expression is restricted to endothelial cells in vivo. To investigate the molecular mechanisms regulating expression of KDR/flk-1, we cloned and characterized the promoter of the human KDR/flk-1 gene. The transcription start site was localized by primer extension and ribonuclease protection to a nucleotide 303 base pairs (bp) 5' of the initiation methionine codon. The 5'-flanking sequence is rich in G and C residues and contains five Sp1 elements but no TATA consensus sequence. By reporter gene transfection experiments, we found that approximately 4 kilobases of KDR/flk-1 5'-flanking sequence directed high level luciferase activity in bovine aortic endothelial cells; further deletion analysis revealed positive regulatory elements between bp -225 to -164, -95 to -77, -77 to -60, and +105 to +127. Mutation of an atypical GATA sequence between bp +105 and +127 did not affect promoter activity, suggesting that GATA elements are not essential for the high level promoter activity of this gene. Consistent with endothelial cell-restricted expression of KDR/flk-1 mRNA, we found that the 4-kilobase flanking sequence directed high level promoter activity in endothelial cells but not in other cell types. To our knowledge this is the first report characterizing the KDR/flk-1 promoter. Understanding the KDR/flk-1 promoter will allow us to investigate endothelial cell-specific gene regulation and to uncover methods for targeting gene delivery specifically to endothelial cells.
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PMID:Cloning and functional analysis of the promoter for KDR/flk-1, a receptor for vascular endothelial growth factor. 755 54

In this study, we investigated the functional role of the transcription factor AP-1 in hypoxia-induced expression of the vascular endothelial growth factor (VEGF) by using dexamethasone as an inhibitor of AP-1 activity. Phorbol ester and platelet-derived growth factor (PDGF) cause an increase in VEGF mRNA expression, which is strongly suppressed in the presence of dexamethasone, whereas hypoxia-induced VEGF expression is not inhibited by dexamethasone. Studies using a VEGF promoter luciferase construct show that the phorbol ester and PDGF-induced VEGF expression is mediated at least in part by transcriptional activation of the VEGF promoter, whereas no transcriptional activation is seen under hypoxic conditions. In contrast, hypoxia leads to an increase in VEGF mRNA stability, as confirmed by experiments using actinomycin D as an inhibitor of transcription. These results indicate that hypoxia-induced VEGF expression is independent of AP-1 mediated transcription.
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PMID:Hypoxia-induced transcription of the vascular endothelial growth factor gene is independent of functional AP-1 transcription factor. 788 61

Angiogenesis, the development of new capillaries, is tightly controlled by the balance of positive and negative regulatory pathways. A newly described angiogenic factor, vascular endothelial growth factor/vascular permeability factor (VEGF/VPF), binds exclusively to endothelial cells and promotes their proliferation. Here we have studied the role of p53, a tumor suppressor, and v-Src, an oncogene on VEGF regulation. Wild-type p53 down-regulated endogenous VEGF mRNA level, as well as VEGF promoter activity, in a dose-dependent manner, whereas mutant forms of p53 had no effect. Overexpression of v-Src, known to up-regulate VEGF expression, activated a VEGF promoter-luciferase construct in a dose-dependent manner. Moreover, v-Src, in the presence of wt-p53, was unable to activate transcription of the VEGF promoter. Collectively, these data suggest that wild-type p53 may play a role in suppressing angiogenesis.
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PMID:Wild-type p53 and v-Src exert opposing influences on human vascular endothelial growth factor gene expression. 852 8

Flk-1, a high-affinity signaling receptor for vascular endothelial growth factor (VEGF), is strongly and specifically expressed on endothelial cells during embryonic development of the vascular system and during tumor angiogenesis. Disruption of Flk-1 gene function has recently been shown to prevent completely endothelial cell differentiation during murine embryonic development. To gain insights into the mechanisms that regulate the endothelium-specific Flk-1 expression, we have isolated the 5'-flanking region of the murine Flk-1 gene. RNase protection and primer extension analyses revealed a single transcriptional start site located 299 bp upstream from the translational start site in an initiator-like pyrimidine-rich sequence. The 5'-flanking region is rich in GC residues and lacks a typical TATA or CAAT box. A luciferase reporter construct containing a fragment from nucleotides -1900 to +299 showed strong endothelium-specific activity in transfected bovine aortic endothelial cells. Deletion analyses revealed that endothelium-specific Flk-1 expression is stimulated by the 5'-untranslated region of the first exon, which contains an activating element between nucleotides +137 and +299. In addition, two endothelium-specific negative regulatory elements were identified between nucleotides -4100 and -623. Two strong general activating elements were present in the region between nucleotides -96 and -37, which contains one potential NF kappa B and three potential AP-2 binding sites. This study shows that Flk-1 expression in endothelial cells is mainly regulated by an endothelium-specific activating element in the long 5'-untranslated region of the first exon and by negative regulatory elements located further upstream.
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PMID:Characterization of the endothelium-specific murine vascular endothelial growth factor receptor-2 (Flk-1) promoter. 875 5

We have characterised the promoters of the human and murine VRF (vascular endothelial growth factor (VEGF) related factor) gene. A series of deletions were made of a 553-bp region 5' of the VRF initiation codon and were used in a luciferase reporter gene assay to determine the minimal promoter of the VRF gene. The region between base pairs -443 and -195 was sufficient to mediate transcription in lymphocytes and the region between -550 and -443 enhanced this promoter activity. Primer extension studies identified two regions of transcription initiation, both of which are preceded by Sp1, AP-2 and Egr-1 transcription factor binding sites. The VRF promoter is similar to VEGF in that it is associated with a CpG island, contains sites for Sp1 and AP-2, and lacks a TATA box. However, it has marked differences in that the promoter contains Egr-1 sites and lacks both hypoxia-inducible factor-1 and AP-1 sites. These data may indicate that expression of these two growth factors is regulated by different physiological stimuli.
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PMID:Analysis of the promoter region of the human VEGF-related factor gene. 901 94

The von Hippel-Lindau tumor suppressor gene (VHL) has a critical role in the pathogenesis of clear-cell renal cell carcinoma (RCC), as VHL mutations have been found in both von Hippel-Lindau disease-associated and sporadic RCCs. Recent studies suggest that vascular endothelial growth factor (VEGF) mRNA is upregulated in RCC- and von Hippel-Lindau disease-associated tumors. We have therefore assessed the effect of the VHL gene product on VEGF expression. VEGF promoter-luciferase constructs were transiently cotransfected with a wild-type VHL (wt-VHL) vector in several cell lines, including 293 embryonic kidney and RCC cell lines. wt-VHL protein inhibited VEGF promoter activity in a dose-dependent manner up to 5- to 10-fold. Deletion analysis defined a 144-bp region of the VEGF promoter necessary for VHL repression. This VHL-responsive element is GC rich and specifically binds the transcription factor Sp1 in crude nuclear extracts. In Drosophila cells, cotransfected VHL represses Sp1-mediated activation but not basal activity of the VEGF promoter. We next demonstrated in coimmunoprecipitates that VHL and Sp1 were part of the same complex and, by using a glutathione-S-transferase-VHL fusion protein and purified Sp1, that VHL and Sp1 directly interact. Furthermore, endogenous VEGF mRNA levels were suppressed in permanent RCC cell lines expressing wt-VHL, and nuclear run-on studies indicated that VHL regulation of VEGF occurs at least partly at the transcriptional level. These observations support a new mechanism for VHL-mediated transcriptional repression via a direct inhibitory action on Sp1 and suggest that loss of Sp1 inhibition may be important in the pathogenesis of von Hippel-Lindau disease and RCC.
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PMID:The von Hippel-Lindau tumor suppressor gene product interacts with Sp1 to repress vascular endothelial growth factor promoter activity. 927 38

Hypoxia is a prominent feature of malignant tumors that are characterized by angiogenesis and vascular hyperpermeability. Vascular permeability factor/vascular endothelial growth factor (VPF/VEGF) has been shown to be up-regulated in the vicinity of necrotic tumor areas, and hypoxia potently induces VPF/VEGF expression in several tumor cell lines in vitro. Here we report that hypoxia-induced VPF/VEGF expression is mediated by increased transcription and mRNA stability in human M21 melanoma cells. RNA-binding/electrophoretic mobility shift assays identified a single 125-bp AU-rich element in the 3' untranslated region that formed hypoxia-inducible RNA-protein complexes. Hypoxia-induced expression of chimeric luciferase reporter constructs containing this 125-bp AU-rich hypoxia stability region were significantly higher than constructs containing an adjacent 3' untranslated region element without RNA-binding activity. Using UV-cross-linking studies, we have identified a series of hypoxia-induced proteins of 90/88 kDa, 72 kDa, 60 kDa, 56 kDa, and 46 kDa that bound to the hypoxia stability region element. The 90/88-kDa and 60-kDa species were specifically competed by excess hypoxia stability region RNA. Thus, increased VPF/VEGF mRNA stability induced by hypoxia is mediated, at least in part, by specific interactions between a defined mRNA stability sequence in the 3' untranslated region and distinct mRNA-binding proteins in human tumor cells.
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PMID:Identification of a human VPF/VEGF 3' untranslated region mediating hypoxia-induced mRNA stability. 945 Sep 68

Nitric oxide (NO) is known to have various biologic and pathophysiologic effects on organisms. The molecular mechanisms by which NO exerts harmful effects are unknown, although various O2 radicals and ions that result from reactivity of NO are presumed to be involved. Here we report that adaptive cellular response controlled by the transcription factor hypoxia-inducible factor 1 (HIF-1) in hypoxia is suppressed by NO. Induction of erythropoietin and glycolytic aldolase A mRNAs in hypoxically cultured Hep3B cells, a human hepatoma cell line, was completely and partially inhibited, respectively, by the addition of sodium nitroprusside (SNP), which spontaneously releases NO. A reporter plasmid carrying four hypoxia-response element sequences connected to the luciferase structural gene was constructed and transfected into Hep3B cells. Inducibly expressed luciferase activity in hypoxia was inhibited by the addition of SNP and two other structurally different NO donors, S-nitroso-L-glutathione and 3-morpholinosydnonimine, giving IC50 values of 7.8, 211, and 490 microM, respectively. Inhibition by SNP was also observed in Neuro 2A and HeLa cells, indicating that the inhibition was not cell-type-specific. The vascular endothelial growth factor promoter activity that is controlled by HIF-1 was also inhibited by SNP (IC50 = 6.6 microM). Induction generated by the addition of cobalt ion (this treatment mimics hypoxia) was also inhibited by SNP (IC50 = 2.5 microM). Increased luciferase activity expressed by cotransfection of effector plasmids for HIF-1alpha or HIF-1alpha-like factor in hypoxia was also inhibited by the NO donor. We also showed that the inhibition was performed by blocking an activation step of HIF-1alpha to a DNA-binding form.
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PMID:Inhibition of hypoxia-inducible factor 1 activity by nitric oxide donors in hypoxia. 963 55

The hypoxia-inducible factor 1 complex (HIF-1) is involved in the transcriptional activation of several genes, like erythropoietin and vascular endothelial growth factor, that are responsive to the lack of oxygen. The HIF-1 complex is composed of two b-HLH proteins: HIF-1beta that is constitutively expressed, and HIF-1alpha, that is present only in hypoxic cells. The HIF-1alpha subunit is continuously synthesized and degraded by the ubiquitin-proteasome under oxic conditions. Hypoxia, transition metals, iron chelators, and several antioxidants stabilize the HIF-1alpha protein, allowing the formation of the transcriptionally active HIF-1 complex. The mechanisms of oxygen sensing and the pathways leading to HIF-1alpha stabilization are unclear. Because the involvement of a heme protein oxygen sensor has been postulated, we tested the heme sensor hypothesis by using a luciferase-expressing cell line (B-1), that is highly responsive to hypoxia. Exposure of B-1 cells to carbon monoxide and heme synthesis inhibitors failed to show any effect on the hypoxia responsiveness of these cells, suggesting that heme proteins are not involved in hypoxia sensing. Measurement of iron in recombinantly expressed HIF-1alpha protein revealed that this protein binds iron in vivo. Iron binding was localized to a 129-amino acid peptide between sequences 529 and 658 of the HIF-1alpha protein. Although the exact structure of the iron center has not been yet defined, a 2:1 metal/protein molar ratio suggests a di-iron center, probably similar to the one found in hemerythrin. This finding is compatible with a model where redox reaction may occur directly in the iron center of the HIF-1alpha subunit, affecting its survival in oxic conditions.
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PMID:Hypoxia-inducible factor 1alpha (HIF-1alpha) is a non-heme iron protein. Implications for oxygen sensing. 1037 3


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