Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UNIPROT:P51532 (transcriptional activator)
 6,546 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Because both the brain natriuretic peptide (BNP) gene and the cytokine interleukin-1beta (IL-1beta) are induced in the infarcted myocardium, localized production of IL-1beta may regulate the BNP gene. We tested whether (1) IL-1beta regulates the human BNP promoter, (2) cis elements in the proximal promoter respond to IL-1beta, and (3) mitogen-activated protein kinase (MAPK) signaling pathways [p42/44, c-jun (JNK) and p38 kinase] are involved. We transferred the hBNP promoter coupled to a luciferase reporter gene or constructs with mutations in the proximal promoter GATA and M-CAT elements into neonatal rat ventricular myocytes and treated the cells with IL-1beta for 24 hours. IL-1beta-stimulated hBNP luciferase activity was eliminated by pretreatment with the transcription inhibitor actinomycin D. Both the p38 kinase inhibitor SB205380 (SB) and cotransfection of a dominant-negative mutant of p38 kinase reduced IL-1beta stimulation of the hBNP promoter. Dominant-negative mutants of Ras and Rac inhibited IL-1beta-stimulated hBNP luciferase activity by 64% and 90%, respectively. Constitutively active forms of Rac and MKK6, the immediate upstream activator of p38, were stimulatory; however, only the effect of MKK6 was inhibited by SB. Neither the p42/44 nor the JNK pathway was involved in the action of IL-1beta. Both IL-1beta and MKK6 activation of the hBNP promoter were partially reduced when the promoter contained a mutated M-CAT element. In summary, (1) IL-1beta is a transcriptional activator of the hBNP promoter; (2) IL-1beta acts through a Ras-dependent pathway not coupled to activation of p42/44 MAPK or JNK; (3) IL-1beta acts through a Rac-dependent pathway, but the downstream effector is not known; and (4) IL-1beta activation of p38 kinase is partially involved in regulation of the hBNP promoter, targeting the proximal M-CAT element.
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PMID:Interleukin-1beta regulation of the human brain natriuretic peptide promoter involves Ras-, Rac-, and p38 kinase-dependent pathways in cardiac myocytes. 993 Nov 18

Branched-chain phytanic acid is metabolized in liver peroxisomes. Sterol carrier protein 2/sterol carrier protein x (SCP2/SCPx) knockout mice, which develop a phenotype with a deficiency in phytanic acid degradation, accumulate dramatically high concentrations of this fatty acid in serum (Seedorf at al. 1998. Genes Dev. 12: 1189-1201) and liver. Concomitantly, a 6.9-fold induction of liver fatty acid binding protein (L-FABP) expression is observed in comparison to wild-type animals fed standard chow, possibly mediated by the peroxisome proliferator-activated receptor alpha (PPARalpha). Cytosolic transport of phytanic acid to either peroxisomal membranes or to the nucleus for activation of PPARalpha may be mediated by L-FABP, which gives rise to the question whether phytanic acid is a transactivator of this protein. Here we show first that phytanic acid binds to recombinant L-FABP with high affinity. Then the increase of the in vivo phytanic acid concentration by phytol feeding to mice results in a 4-fold induction of L-FABP expression in liver, which is in the order of that attained with bezafibrate, a known peroxisome proliferator. Finally to test in vitro whether this induction is conferred by phytanic acid, we cotransfected HepG2 cells with an expression plasmid for murine PPARalpha and a CAT-reporter gene with 176 bp of the murine L-FABP promoter, containing the peroxisome proliferator responsive element (PPRE). After incubation with phytanic acid, we observed a 3.2-fold induction of CAT expression. These findings, both in vivo and in vitro, demonstrate that phytanic acid is a transcriptional activator of L-FABP expression and that this effect is mediated via PPARalpha.
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PMID:Phytanic acid is ligand and transcriptional activator of murine liver fatty acid binding protein. 1019 Dec 95

Recent studies have established an essential role for p38 MAP kinase in UV activation of human immunodeficiency virus (HIV) gene expression. However, p38 MAP kinase is not involved in activation of NF-kappa B, a key transcriptional activator of HIV gene expression, in response to UV, suggesting that NF-kappa B acts independently of p38 MAP kinase. In this study, we have investigated whether activation of HIV gene expression occurs when p38 MAP kinase and NF-kappa B are activated by separate stress-causing treatments, each relatively specific for activating only one of the factors. Treatment of cells with sorbitol (hyperosmotic shock) strongly activates p38 MAP kinase, whereas the cytokine TNF-alpha is a poor activator of p38 MAP kinase. On the other hand, TNF-alpha is a strong activator of NF-kappa B whereas sorbitol is not. Sorbitol, however, activates AP-1 DNA binding activity in a manner similar to that of UV. Most importantly, both sorbitol and TNF-alpha are poor activators of HIV gene expression in HeLa cells stably transfected with an HIVcat reporter gene, whereas UV elicits a strong response. The combined treatment with UV and hyperosmotic shock produces an additive effect on HIV gene expression, suggesting that these agents activate at least in part by different mechanisms. The combined treatment with sorbitol and TNF-alpha activates p38 and NF-kappa B to levels similar to those with UV, yet only results in 25-30% of the CAT levels elicited by UV. Inhibition of NF-kappa B activation by the protease inhibitor N-alpha-tosyl-L-phenylalanine chloromethyl ketone (TPCK) prevents UV activation of HIV gene expression, but does not inhibit p38 MAP kinase activation. We conclude that whereas both p38 MAP kinase and NF-kappa B are important for UV activation of HIV gene expression they act independently from each other and activation of both factors is not sufficient for triggering a full HIV gene expression response. Activation of HIV gene expression by UV must therefore involve additional cellular processes, such as those triggered by DNA damage, for generation of a full gene expression response.
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PMID:Activation of NF-kappa B and p38 MAP kinase is not sufficient for triggering efficient HIV gene expression in response to stress. 1067 19

Genistein, a natural flavone found in soy has been postulated to be responsible for lowering the rate of breast cancer in Asian women. Our previous studies have shown that genistein exerts multiple suppressive effects on both estrogen receptor positive (ER+) as well as estrogen receptor negative (ER-) human breast carcinoma lines suggesting that the mechanisms of these effects may be independent of ER pathways. In the present study however we provide evidence that in the ER+ MCF-7, T47D and 549 lines but not in the ER-MDA-MB-231 and MDA-MB-468 lines both presumed "ER-dependent" and "ER-independent" actions of genistein are mediated through ER pathways. Genistein's antiproliferative effects are estrogen dependent in these ER+ lines, being more pronounced in estrogen-containing media and in the presence of exogenous 17-beta estradiol. Genistein also inhibits the expression of ER-downstream genes including pS2 and TGF-beta in these ER+ lines and this inhibition is also dependent on the presence of estrogen. Genistein inhibits estrogen-induced protein tyrosine kinase (PTK) activity. Genistein is only a weak transcriptional activator and actually decreases ERE-CAT levels induced by 17-beta estradiol in the ER+ lines. Genistein also decreases steady state ER mRNA only in the presence of estrogen in the ER+ lines thereby manifesting another suppression of and through the ER pathway. Our observations resurrect the hypothesis that genistein functions as a "good estrogen" in ER+ breast carcinomas. Since chemopreventive effects of genistein would be targeted to normal ER-positive ductal-lobular cells of the breast, this "good estrogen" action of genistein is most relevant to our understanding of chemoprevention.
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PMID:Genistein's "ER-dependent and independent" actions are mediated through ER pathways in ER-positive breast carcinoma cell lines. 1095 3

The SNF2-related CBP activator protein (SrCap) is a potent activator of transcription mediated by CBP and CREB. We have previously demonstrated that the Adenovirus 2 DNA Binding Protein (DBP) binds to SrCap and inhibits the transcription mediated by the carboxyl-terminal region of SrCap (amino acids 1275-2971). We report here that DBP inhibits the ability of full-length SrCap (1-2971) to activate transcription mediated by Gal-CREB and Gal-CBP. In addition, DBP also inhibits the ability of SrCap to enhance Protein Kinase A (PKA) activated transcription of the enkaphalin promoter. DBP was found to dramatically inhibit transcription of a mammalian two-hybrid system that was dependent on the interaction of SrCap and CBP binding domains. We also found that DBP has no effect on transcription mediated by a transcriptional activator that is not related to SrCap, indicating that our reported transcriptional inhibition is specific for SrCap and not due to nonspecific effects of DBP's DNA binding activity on the CAT reporter plasmid. Taken together, these results suggest a model in which DBP inhibits cellular transcription mediated by the interaction between SrCap and CBP.
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PMID:Adenovirus DNA binding protein inhibits SrCap-activated CBP and CREB-mediated transcription. 1295 26

The ZNF268 gene was originally isolated from an early human embryo cDNA library. Several different transcripts have been isolated for the ZNF268 gene and developmental expression studies suggest that ZNF268 plays a role in the development of human fetal liver and the differentiation of blood cells. In our effort to study the functions of ZNF268 in different organs during development and in pathogenesis, we have now identified 3 novel splicing isoforms, ZNF268e, ZNF268f and ZNF268g, in human fetal tissues and human tumor derived cell lines. The 8 alternatively spliced mRNAs discovered so for are predicted to encode 3 protein isoforms. Expression analysis showed that different mRNA isoforms have different expression profiles. In particular, ZNF268c mRNA was detected only in tumor cells, and ZNF268f appeared to be tissue-specific. By Western blot analysis, all 3 ZNF268 protein isoforms, ZNF268a, ZNF268b1 and ZNF268b2, were expressed in tumor cell lines, while only two protein products, ZNF268b1 and ZNF268b2, were detected in human fetal tissues. Subcellular localization analysis showed that ZNF268a and ZNF268b2 distributed diffusely throughout the cell, while ZNF268b1 mainly localized in the cytoplasm. Moreover, using a CAT reporter system fused to the Gal4 DNA binding domain of the ZNF268 gene, the ZNF268a and b2 activated the CAT reporter gene expression, while the KRAB domain, corresponding to the ZNF268b1 repressed the reporter gene expression. Taken together, our results showed that multiple ZNF268 splicing products encode multiple ZNF268 protein isoforms with different subcellular localization, and that the ZNF268 gene may function as a transcriptional activator in the growth and differentiation of cells in development and/or pathogenesis.
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PMID:KRAB-containing zinc finger gene ZNF268 encodes multiple alternatively spliced isoforms that contain transcription regulatory domains. 1686 30

The p53 is a DNA binding phosphoprotein that can act as a transcriptional activator through high affinity DNA binding sequences (HBS). The large T antigen (LT-ag) of SV40 virus can bind p53 and their association is considered important for transforming activities of the virus. In this study, we investigated the effects of LT-ag on transcriptional transactivating function of p53 using cotransfection assays and DNA-binding electrophoretic mobility shift assays. A reporter gene containing a minimal TK promoter and two copies of HBS for p53 was cotransfected with p53 and LT-ag expression vector into human SKOV3 cells (p53 non-expressor). The LT-ag inhibited in a dose-dependent fashion transactivation by wild-type p53. The LT-ag was unable to inhibit transactivation of a reporter gene containing a similar promoter (TK). The LT-ag mutants defective for binding to p53, failed to inhibit transactivation. The LT-ag inhibited the transactivation of a CAT reporter gene containing the GAL4-DNA recognition sequences by the p53 protein which was fused to the heterologous DNA binding domain (amino acids 1-147 of GAL4) in cotransfected cells showing that inhibition of p53 activities by LT-ag was not restricted to the p53 HBS-dependent reporter. LT-ag failed to inhibit GAL4-p53 fragment containing the transactivating, but non-LT-ag binding region of p53, showing the importance of LT-ag binding to p53 in order to restrict p53 transactivation. Immunohistochemical analysis showed that in SKOV3, nuclear localization of wild type p53 was unaffected by coexpressed LT-ag. Gel shift analysis determined that nuclear extract from cells cotransfected with p53 and LT-ag expression vectors contained p53 not associated with LT-ag; this free p53 was able to bind to the HBS. These results suggest that LT-ag of SV40 preferentially binds the transcriptionally active p53, preventing it from transactivating through p53-HBS; the transcriptionally inactive p53 in these cells can still bind p53-HBS.
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PMID:T-antigen of sv40 blocks p53 transactivation but not p53 specific binding to DNA. 2155 65

MYB transcription factors play important roles in plant responses to biotic and abiotic stress. In this study, TaODORANT1, a R2R3-MYB gene, was cloned from wheat (Triticum aestivum L.). TaODORANT1 was localized in the nucleus and functioned as a transcriptional activator. TaODORANT1 was up-regulated in wheat under PEG6000, NaCl, ABA, and H2O2 treatments. TaODORANT1-overexpressing transgenic tobacco plants exhibited higher relative water content and lower water loss rate under drought stress, as well as lower Na+ accumulation in leaves under salt stress. The transgenic plants showed higher CAT activity but lower ion leakage, H2O2 and malondialdehyde contents under drought and salt stresses. Besides, the transgenic plants also exhibited higher SOD activity under drought stress. Our results also revealed that TaODORANT1 overexpression up-regulated the expression of several ROS- and stress-related genes in response to both drought and salt stresses, thus enhancing transgenic tobacco plants tolerance. Our studies demonstrate that TaODORANT1 positively regulates plant tolerance to drought and salt stresses.
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PMID:A Wheat R2R3-type MYB Transcription Factor TaODORANT1 Positively Regulates Drought and Salt Stress Responses in Transgenic Tobacco Plants. 2884 78


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