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: UNIPROT:P51532 (transcriptional activator)
6,546 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Activator protein-2alpha (AP-2) is a transcription factor that regulates proliferation and differentiation in mammalian cells. We have shown previously that although AP-2 is expressed highly in normal prostatic epithelium, its expression is lost in high-grade prostatic intraepithelial neoplasia and prostate cancer, suggesting that loss of AP-2 plays a role in prostate cancer development. We demonstrate that forced AP-2 expression in the prostate cancer cell line LNCaP-LN3 (AP-2 negative) inhibited dramatically tumor incidence in nude mice. To identify the genes that might have been responsible for this effect, we used microchip expression array. We found several genes known to be involved in malignancy were deregulated, including the vascular endothelial growth factor (VEGF) gene. Because VEGF was down-regulated by 14.7-fold in the AP-2-transfected cells and because it is a major angiogenic factor in prostate cancer development and progression, we chose to examine the AP-2-VEGF interaction. Our evidence suggests that AP-2 repressed transcriptionally the VEGF promoter by competing with the transcriptional activator Sp3. Loss of AP-2 in prostate cancer cells reduced the AP-2:Sp3 ratio and activated VEGF expression. AP-2 acts as a tumor-suppressor gene in prostate cancer. Elucidating the molecular events resulting from loss of AP-2 in the prostate epithelium has implications for the understanding and prevention of the onset of prostate cancer.
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PMID:Activator protein 2alpha inhibits tumorigenicity and represses vascular endothelial growth factor transcription in prostate cancer cells. 1474 78

Hypoxia-inducible factor (HIF)-1alpha is a transcription factor that controls expression of genes responsive to low oxygen tension, including vascular endothelial growth factor (VEGF), erythropoietin, and glycolytic enzymes. The activity of HIF-1alpha is regulated by binding to the transcriptional co-activator cAMP-response element-binding protein-binding protein (CBP)/p300. Using the yeast two-hybrid screening system, we found that the inhibitory domain of HIF-1alpha strongly interacted with the C-terminal domain of histone deacetylase (HDAC) 7. The o-nitrophenyl beta-d-galactopyranoside assay revealed that regions containing amino acids 735-785 of HIF-1alpha and amino acids 669-952 of HDAC7 were minimum contact sites of the interaction. The binding of HDAC7 with HIF-1alpha was reproduced in HEK293 cells grown under normoxic and hypoxic conditions (2% O(2)). HDAC7 bound solely to HIF-1alpha among other HIF-alpha family members, including HIF-2alpha and HIF-3alpha, whereas HIF-1alpha only interacted with HDAC7 in the class II HDAC family. Although HDAC7 was localized dominantly in the cytoplasm at normal oxygen concentrations, HDAC7 co-translocated to the nucleus with HIF-1alpha under hypoxic conditions. In the nucleus, HDAC7 increased transcriptional activity of HIF-1alpha through the formation of a complex with HIF-1alpha, HDAC7, and p300. Taken together, these results indicate that HDAC7 is a novel transcriptional activator of HIF-1alpha
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PMID:Histone deacetylase 7 associates with hypoxia-inducible factor 1alpha and increases transcriptional activity. 1528 Mar 64

Inadequate angiogenic response to ischemia in diabetic myocardium could result in poor collateral formation. Because hypoxia-inducible factor (HIF)-1alpha is a transcriptional activator of vascular endothelial growth factor (VEGF) and is critical for initiating angiogenic responses to hypoxia, we investigated the expression of HIF-1alpha and VEGF in specimens of human heart tissue to elucidate the molecular responses to myocardial ischemia in diabetic patients during unstable angina. Moreover, accumulation of a marker of protein nitration nitrotyrosine, as well as the superoxide anion (O(2)(-)) levels and inducible nitric oxide synthase (iNOS), were evaluated. Ventricular biopsy specimens from 15 type 2 diabetic and 14 nondiabetic patients presenting with unstable angina (ischemic group) and from 20 patients (11 type 2 diabetic and 9 nondiabetic patients) who underwent coronary bypass surgery without angina within the preceding 10 days (control group) were collected during coronary bypass surgery. Nondiabetic patients had higher HIF-1alpha and VEGF expressions compared with diabetic patients (P < 0.001). As compared with nondiabetic specimens, diabetic specimens showed higher levels of both iNOS mRNA and protein levels (P < 0.001) associated with the highest tissue levels of nitrotyrosine and O(2)(-) (P < 0.001). Diabetes is associated with increased myocardial tissue levels of iNOS, O(2)(-), and nitrotyrosine and reduced expression of myocardial angiogenesis factors during ischemia.
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PMID:Expression of angiogenic factors during acute coronary syndromes in human type 2 diabetes. 1533 49

Effective therapies for stroke must interdict multiple parallel and sequential pathophysiological events. A paradigm which offers insight into multivalent but thoughtfully coordinated protective programs is ischemic preconditioning. A central hypothesis of our group and others is that pharmacological agents that activate programs of gene expression normally induced by ischemic preconditioning will be effective agents for the prevention and treatment of stroke. Inhibitors of a class of enzymes, the hypoxia inducible factor-1 (HIF-1) prolyl hydroxylases stabilize the transcriptional activator HIF-1 and activate target genes involved in compensation for ischemia, including erythropoeitin (Epo) and vascular endothelial growth factor (VEGF). Here, we review evidence suggesting that the HIF-1 prolyl hyroxylases are inhibited during ischemic preconditioning and that pharmacological inhibitors of these enzymes are viable targets for stroke therapy.
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PMID:Translation of ischemic preconditioning to the patient: prolyl hydroxylase inhibition and hypoxia inducible factor-1 as novel targets for stroke therapy. 1547 13

The hypoxia-inducible factor (HIF)-1 is a master transcriptional activator of oxygen-regulated genes involved in energy metabolism, angiogenesis, and erythropoiesis. HIF-1 is composed of the two subunits HIF-1alpha and HIF-1beta (also called ARNT). The destruction of HIF-1alpha in the presence of oxygen is initiated by prolyl-4-hydroxylation. In human cells three closely related prolyl hydroxylases (PHDs) have been identified. An age-dependent decrease in HIF-1alpha expression was reported previously in brain, liver and kidney, which may be associated with a reduced adaptation to hypoxia as found in aged animals and humans. We have determined the expression of HIF-1alpha and the PHDs in human atrial trabeculae under normoxic and hypoxic conditions, in samples of human left ventricles as well as in heart extracts from female mice of different age (5 up to 16 months). With increasing age we found a decreased expression of HIF-1alpha, which correlated to an increased PHD3 expression in mouse and human heart. PHD3 was the most prominent HIF modifying hydroxylase found in human heart samples. Additionally, we found a strong ischemia/hypoxia-inducibility of PHD3 compared to PHD1 and PHD2 in atrial trabeculae. These data may explain the previously reported reduction of HIF-1alpha and HIF-1 target genes such as the vascular endothelial growth factor in ageing tissue.
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PMID:Age-dependent increase of prolyl-4-hydroxylase domain (PHD) 3 expression in human and mouse heart. 1604 20

Inflammation of the asthmatic airway is usually accompanied by increased vascular permeability and plasma exudation. Oxidative stress plays critical roles in airway inflammation. Although reactive oxygen species (ROS) are shown to cause vascular leakage, the mechanisms by which ROS induce increased vascular permeability are not clearly understood. We have used a murine model of asthma to evaluate the effect of l-2-oxothiazolidine-4-carboxylic acid (OTC), a prodrug of cysteine that acts as an antioxidant, more specifically in the increase of vascular permeability. These mice develop the following typical pathophysiological features of asthma in the lungs: increased numbers of inflammatory cells of the airways, airway hyper-responsiveness, increased vascular permeability, and increased levels of vascular endothelial growth factor (VEGF). Administration of OTC markedly reduced plasma extravasation and VEGF levels in allergen-induced asthmatic lungs. We also showed that at 72 h after ovalbumin inhalation, increased levels of hypoxia-inducible factor-1alpha (a transcriptional activator of VEGF) in nuclear protein extracts of lung tissues were decreased by the administration of OTC. These results indicate that OTC modulates vascular permeability by lowering VEGF expression.
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PMID:A prodrug of cysteine, L-2-oxothiazolidine-4-carboxylic acid, regulates vascular permeability by reducing vascular endothelial growth factor expression in asthma. 1610 46

Human pituitary tumor transforming gene (hPTTG1) was recently identified as a protooncogene, which is a regulator of the cell cycle, as a homolog of yeast securin and a transcriptional activator of several angiogenic factors. Here we examined the relationships of hPTTG1 expression with cell proliferation, expression of the angiogenic factor, VEGF (vascular endothelial growth factor), and numbers of the blood vessels in the normal and/or adenomatous pituitary. With the exception of TSHoma, the expression of hPTTG1 was significantly higher in pituitary adenomas than in the normal pituitary gland. The cell proliferation activity was higher in pituitary adenomas than in the normal pituitary. Pituitary cell proliferation was significantly correlated with the level of hPTTG1 expression in the normal pituitary tissue, but there was no such correlation in the adenomas. The significant correlation of hPTTG1 with the VEGF expression and the numbers of the blood vessels was elucidated in pituitary adenomas. It is particularly noteworthy that immunohistochemical double staining indicated co-localization of VEGF in many hPTTG1-positive tumor cells. In conclusion, higher levels of hPTTG1 expression contribute to the pathobiology of pituitary adenomas by promoting angiogenesis rather than by activating cell proliferation, whereas hPTTG1 expression is related to mitotic activity in the normal pituitary gland.
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PMID:PTTG overexpression is correlated with angiogenesis in human pituitary adenomas. 1715 47

Edaravone (3-methyl-1-phenyl-2-pyrazolin-5-one), a free radical scavenger, reduces brain edema in patients with acute ischemic stroke. We have addressed the effect of edaravone on the expression of vascular endothelial growth factor (VEGF), a potential mediator of brain edema, in astrocytes exposed to hypoxia. Normal human astrocytes in culture were treated with edaravone, and the levels of VEGF mRNA and protein were analyzed by reverse transcription-polymerase chain reaction (RT-PCR), real-time quantitative PCR and enzyme-linked immunosorbent assay (ELISA). The expression of hypoxia-inducible factor-1alpha (HIF-1alpha), a transcriptional activator of VEGF, was examined by RT-PCR, real-time PCR and western blotting; and the binding of HIF-1alpha to the promoter region of VEGF gene by chromatin immunoprecipitation (ChIP) assay. Edaravone moderately suppressed the expression of VEGF mRNA and protein in astrocytes under hypoxia in time- and concentration-dependent manners. It also suppressed the accumulation of HIF-1alpha in the nuclei under hypoxia. ChIP assay confirmed that edaravone reduced HIF-1alpha binding to VEGF promoter. We conclude that edaravone inhibits VEGF expression in astrocytes exposed to hypoxia, at least partly, through the down-regulation of HIF-1alpha. These findings offer a partial explanation for the protective effect of edaravone on the development of brain edema in patients with acute ischemic stroke.
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PMID:Edaravone inhibits the expression of vascular endothelial growth factor in human astrocytes exposed to hypoxia. 1788 87

The hypoxic response is an ancient stress response triggered by low ambient oxygen (O2) (ref. 1) and controlled by hypoxia-inducible transcription factor-1 (HIF-1), whose alpha subunit is rapidly degraded under normoxia but stabilized when O2-dependent prolyl hydroxylases (PHDs) that target its O2-dependent degradation domain are inhibited. Thus, the amount of HIF-1alpha, which controls genes involved in energy metabolism and angiogenesis, is regulated post-translationally. Another ancient stress response is the innate immune response, regulated by several transcription factors, among which NF-kappaB plays a central role. NF-kappaB activation is controlled by IkappaB kinases (IKK), mainly IKK-beta, needed for phosphorylation-induced degradation of IkappaB inhibitors in response to infection and inflammation. IKK-beta is modestly activated in hypoxic cell cultures when PHDs that attenuate its activation are inhibited. However, defining the relationship between NF-kappaB and HIF-1alpha has proven elusive. Using in vitro systems, it was reported that HIF-1alpha activates NF-kappaB, that NF-kappaB controls HIF-1alpha transcription and that HIF-1alpha activation may be concurrent with inhibition of NF-kappaB. Here we show, with the use of mice lacking IKK-beta in different cell types, that NF-kappaB is a critical transcriptional activator of HIF-1alpha and that basal NF-kappaB activity is required for HIF-1alpha protein accumulation under hypoxia in cultured cells and in the liver and brain of hypoxic animals. IKK-beta deficiency results in defective induction of HIF-1alpha target genes including vascular endothelial growth factor. IKK-beta is also essential for HIF-1alpha accumulation in macrophages experiencing a bacterial infection. Hence, IKK-beta is an important physiological contributor to the hypoxic response, linking it to innate immunity and inflammation.
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PMID:NF-kappaB links innate immunity to the hypoxic response through transcriptional regulation of HIF-1alpha. 1843 92

Protein transduction (PT) is a method for delivering proteins into mammalian cells. PT is accomplished by linking a small peptide tag--called a PT domain (PTD)--to a protein of interest, which generates a functional fusion protein that can penetrate efficiently into mammalian cells. In order to study the functions of a transcription factor (TF) of interest, expression plasmids that encode the TF often are transfected into mammalian cells. However, the efficiency of DNA transfection is highly variable among different cell types and is usually very low in primary cells, stem cells and tumor cells. Zinc-finger transcription factors (ZF-TFs) can be tailor-made to target almost any gene in the human genome. However, the extremely low efficiency of DNA transfection into cancer cells, both in vivo and in vitro, limits the utility of ZF-TFs. Here, we report on an artificial ZF-TF that has been fused to a well-characterized PTD from the human immunodeficiency virus-1 (HIV-1) transcriptional activator protein, Tat. This ZF-TF targeted the endogenous promoter of the human VEGF-A gene. The PTD-attached ZF-TF was delivered efficiently into human cells in vitro. In addition, the VEGF-A-specific transcriptional repressor retarded the growth rate of tumor cells in a mouse xenograft experiment.
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PMID:Transduction of artificial transcriptional regulatory proteins into human cells. 1864 41


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