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1
MOREL, Yannick, i Robert BAROUKI. "The repression of nuclear factor I/CCAAT transcription factor (NFI/CTF) transactivating domain by oxidative stress is mediated by a critical cysteine (Cys-427)". Biochemical Journal 348, nr 1 (9.05.2000): 235–40. http://dx.doi.org/10.1042/bj3480235.
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The activity of the nuclear factor I/CCAAT transcription factor (NFI/CTF) is negatively regulated by oxidative stress. The addition of relatively high (millimolar) H2O2 concentrations inactivates cellular NFI DNA-binding activity whereas lower concentrations can repress NFI/CTF transactivating function. We have investigated the mechanism of this regulation using Gal4 fusion proteins and transfection assays. We show that micromolar H2O2 concentrations repress the transactivating domain of NFI/CTF in a dose-dependent manner and are less or not active on other transcription factors' transactivating domains. Studies using deletions and point mutations pointed to the critical role of Cys-427. Indeed, when this cysteine is mutated into a serine, the repression by H2O2 is totally blunted. Mutation of other cysteine, serine and tyrosine residues within the transactivating domain had no clear effect on the repression by H2O2. Finally, treatment of cells with the thiol-alkylating reagent N-ethylmaleimide leads to a decrease in the transactivating function, which is dependent on Cys-427. This study shows that transactivating domains of transcription factors can constitute very sensitive targets of oxidative stress and highlights the critical role of these domains.
2
Becker, D. M., S. M. Hollenberg i R. P. Ricciardi. "Fusion of adenovirus E1A to the glucocorticoid receptor by high-resolution deletion cloning creates a hormonally inducible viral transactivator." Molecular and Cellular Biology 9, nr 9 (wrzesień 1989): 3878–87. http://dx.doi.org/10.1128/mcb.9.9.3878.
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The 289-amino-acid E1A protein of adenovirus type 2 stimulates transcription from early viral and certain cellular promoters. Its mechanism is not known, and there exist no temperature-sensitive mutants of E1A that could help to elucidate the details of E1A transcriptional activation. To create for E1A such a conditional phenotype, we fused portions of E1A to the human glucocorticoid receptor (GR) to make transactivation by E1A dependent on the presence of dexamethasone. Nested subsets of the E1A coding region, centered around the 46-amino-acid transactivating domain, were substituted for the DNA-binding domain of the GR. One of the resulting chimeric proteins (GR/E1A-99), which included the entire E1A transactivating domain, stimulated expression from a viral early promoter (E3) exclusively in the presence of hormone. GR/E1A-99 did not transactivate a GR-responsive promoter. It therefore exhibited the promoter specificity of E1A while possessing the hormone inducibility of the GR. Two smaller chimeras that contained only portions of the E1A transactivating domain failed to transactivate E3. These three chimeras were constructed by a novel strategy, high-resolution deletion cloning. In this procedure, series of unidirectional deletions were made with exonuclease III on each side of the E1A coding region at a resolution of 1 to 2 nucleotides. The large number of in-frame fragments present in the collection of deleted clones facilitated the construction of the GR/E1A chimeras and can be used to create many additional fusions.
3
Becker, D. M., S. M. Hollenberg i R. P. Ricciardi. "Fusion of adenovirus E1A to the glucocorticoid receptor by high-resolution deletion cloning creates a hormonally inducible viral transactivator". Molecular and Cellular Biology 9, nr 9 (wrzesień 1989): 3878–87. http://dx.doi.org/10.1128/mcb.9.9.3878-3887.1989.
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The 289-amino-acid E1A protein of adenovirus type 2 stimulates transcription from early viral and certain cellular promoters. Its mechanism is not known, and there exist no temperature-sensitive mutants of E1A that could help to elucidate the details of E1A transcriptional activation. To create for E1A such a conditional phenotype, we fused portions of E1A to the human glucocorticoid receptor (GR) to make transactivation by E1A dependent on the presence of dexamethasone. Nested subsets of the E1A coding region, centered around the 46-amino-acid transactivating domain, were substituted for the DNA-binding domain of the GR. One of the resulting chimeric proteins (GR/E1A-99), which included the entire E1A transactivating domain, stimulated expression from a viral early promoter (E3) exclusively in the presence of hormone. GR/E1A-99 did not transactivate a GR-responsive promoter. It therefore exhibited the promoter specificity of E1A while possessing the hormone inducibility of the GR. Two smaller chimeras that contained only portions of the E1A transactivating domain failed to transactivate E3. These three chimeras were constructed by a novel strategy, high-resolution deletion cloning. In this procedure, series of unidirectional deletions were made with exonuclease III on each side of the E1A coding region at a resolution of 1 to 2 nucleotides. The large number of in-frame fragments present in the collection of deleted clones facilitated the construction of the GR/E1A chimeras and can be used to create many additional fusions.
4
TOLNAY, Mate, Yuang-Taung JUANG i George C. TSOKOS. "Protein kinase A enhances, whereas glycogen synthase kinase-3β inhibits, the activity of the exon 2-encoded transactivator domain of heterogeneous nuclear ribonucleoprotein D in a hierarchical fashion". Biochemical Journal 363, nr 1 (22.03.2002): 127–36. http://dx.doi.org/10.1042/bj3630127.
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Heterogeneous nuclear ribonucleoprotein D (hnRNP D) is implicated in transcriptional regulation. Alternative splicing of exons 2 and 7 generates four isoforms of the protein. We report here that only isoforms that contain the product of exon 2 (amino acids 79–97) were able to transactivate. Moreover, the exon 2-encoded protein domain alone was sufficient to drive transcription. TATA-binding protein and p300 interacted with a synthetic peptide corresponding to exon 2, and both proteins co-precipitated with hnRNP D. Stimulation of protein kinase A (PKA) and protein kinase C (PKC) synergistically induced the transactivating ability of hnRNP D, and the exon 2-encoded domain was sufficient for this inducibility. In kinase assays PKA phosphorylated Ser-87 of hnRNP D, whereas glycogen synthase kinase-3β (GSK-3β) phosphorylated Ser-83, but only if Ser-87 had been pre-phosphorylated by PKA. Phosphorylation of Ser-87 enhanced, whereas phosphorylation of Ser-83 repressed, transactivation. Overexpression of GSK-3β inhibited transactivation by hnRNP D, but stimulation of PKC negated the inhibitory effect of GSK-3β. We suggest that a hierarchical phosphorylation pathway regulates the transactivating ability of hnRNP D: PKA activates hnRNP D, but at the same time renders it sensitive to inhibition by GSK-3β; the latter inhibition can be suspended by inactivating GSK-3β with PKC.
5
Bisaillon, Richard, Brian T. Wilhelm, Jana Krosl i Guy Sauvageau. "C-terminal domain of MEIS1 converts PKNOX1 (PREP1) into a HOXA9-collaborating oncoprotein". Blood 118, nr 17 (27.10.2011): 4682–89. http://dx.doi.org/10.1182/blood-2011-05-354076.
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Abstract The three-amino-acid loop extension (TALE) class homeodomain proteins MEIS1 and PKNOX1 (PREP1) share the ability to interact with PBX and HOX family members and bind similar DNA sequences but appear to play opposing roles in tumor development. Elevated levels of MEIS1 accelerate development of HOX- and MLL-induced leukemias, and this pro-tumorigenic property has been associated with transcriptional activity of MEIS1. In contrast, reduction of PKNOX1 levels has been linked with cancer development despite the absence of an identifiable transactivating domain. In this report, we show that a chimeric protein generated by fusion of the MEIS1 C-terminal region encompassing the transactivating domain with the full-length PKNOX1 (PKNOX1-MC) acquired the ability to accelerate the onset of Hoxa9-induced leukemia in the mouse bone marrow transduction/transplantation model. Gene expression profiling of primary bone marrow cells transduced with Hoxa9 plus Meis1, or Hoxa9 plus Pknox1-MC revealed perturbations in overlapping functional gene subsets implicated in DNA packaging, chromosome organization, and in cell cycle regulation. Together, results presented in this report suggest that the C-terminal domain of MEIS1 confers to PKNOX1 an ectopic transactivating function that promotes leukemogenesis by regulating expression of genes involved in chromatin accessibility and cell cycle progression.
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Simcha, Inbal, Michael Shtutman, Daniela Salomon, Jacob Zhurinsky, Einat Sadot, Benjamin Geiger i Avri Ben-Ze'ev. "Differential Nuclear Translocation and Transactivation Potential of β-Catenin and Plakoglobin". Journal of Cell Biology 141, nr 6 (15.06.1998): 1433–48. http://dx.doi.org/10.1083/jcb.141.6.1433.
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β-Catenin and plakoglobin are homologous proteins that function in cell adhesion by linking cadherins to the cytoskeleton and in signaling by transactivation together with lymphoid-enhancing binding/T cell (LEF/TCF) transcription factors. Here we compared the nuclear translocation and transactivation abilities of β-catenin and plakoglobin in mammalian cells. Overexpression of each of the two proteins in MDCK cells resulted in nuclear translocation and formation of nuclear aggregates. The β-catenin-containing nuclear structures also contained LEF-1 and vinculin, while plakoglobin was inefficient in recruiting these molecules, suggesting that its interaction with LEF-1 and vinculin is significantly weaker. Moreover, transfection of LEF-1 translocated endogenous β-catenin, but not plakoglobin to the nucleus. Chimeras consisting of Gal4 DNA-binding domain and the transactivation domains of either plakoglobin or β-catenin were equally potent in transactivating a Gal4-responsive reporter, whereas activation of LEF-1– responsive transcription was significantly higher with β-catenin. Overexpression of wild-type plakoglobin or mutant β-catenin lacking the transactivation domain induced accumulation of the endogenous β-catenin in the nucleus and LEF-1–responsive transactivation. It is further shown that the constitutive β-catenin–dependent transactivation in SW480 colon carcinoma cells and its nuclear localization can be inhibited by overexpressing N-cadherin or α-catenin. The results indicate that (a) plakoglobin and β-catenin differ in their nuclear translocation and complexing with LEF-1 and vinculin; (b) LEF-1–dependent transactivation is preferentially driven by β-catenin; and (c) the cytoplasmic partners of β-catenin, cadherin and α-catenin, can sequester it to the cytoplasm and inhibit its transcriptional activity.
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Inukai, Takeshi, Toshiya Inaba, Satoshi Ikushima i A. Thomas Look. "The AD1 and AD2 Transactivation Domains of E2A Are Essential for the Antiapoptotic Activity of the Chimeric Oncoprotein E2A-HLF". Molecular and Cellular Biology 18, nr 10 (1.10.1998): 6035–43. http://dx.doi.org/10.1128/mcb.18.10.6035.
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ABSTRACT The chimeric oncoprotein E2A-HLF, generated by the t(17;19) chromosomal translocation in pro-B-cell acute lymphoblastic leukemia, incorporates the transactivation domains of E2A and the basic leucine zipper (bZIP) DNA-binding and protein dimerization domain of HLF (hepatic leukemic factor). The ability of E2A-HLF to prolong the survival of interleukin-3 (IL-3)-dependent murine pro-B cells after IL-3 withdrawal suggests that it disrupts signaling pathways normally responsible for cell suicide, allowing the cells to accumulate as transformed lymphoblasts. To determine the structural motifs that contribute to this antiapoptotic effect, we constructed a panel of E2A-HLF mutants and programmed their expression in IL-3-dependent murine pro-B cells (FL5.12 line), using a zinc-inducible vector. Neither the E12 nor the E47 product of the E2A gene nor the wild-type HLF protein was able to protect the cells from apoptosis induced by IL-3 deprivation. Surprisingly, different combinations of disabling mutations within the HLF bZIP domain had little effect on the antiapoptotic property of the chimeric protein, so long as the amino-terminal portion of E2A remained intact. In the context of a bZIP domain defective in DNA binding, mutants retaining either of the two transactivation domains of E2A were able to extend cell survival after growth factor deprivation. Thus, the block of apoptosis imposed by E2A-HLF in pro-B lymphocytes depends critically on the transactivating regions of E2A. Since neither DNA binding nor protein dimerization through the bZIP domain of HLF is required for this effect, we propose mechanisms whereby protein-protein interactions with the amino-terminal region of E2A allow the chimera to act as a transcriptional cofactor to alter the expression of genes regulating the apoptotic machinery in pro-B cells.
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Kusano, Shuichi, Yuki Shiimura i Yoshito Eizuru. "I-mfa domain proteins specifically interact with SERTA domain proteins and repress their transactivating functions". Biochimie 93, nr 9 (wrzesień 2011): 1555–64. http://dx.doi.org/10.1016/j.biochi.2011.05.016.
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Zaragoza, Michael V., Lisa E. Lewis, Guifeng Sun, Eric Wang, Ling Li, Ilham Said-Salman, Laura Feucht i Taosheng Huang. "Identification of the TBX5 transactivating domain and the nuclear localization signal". Gene 330 (kwiecień 2004): 9–18. http://dx.doi.org/10.1016/j.gene.2004.01.017.
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Whitelaw, M. L., J. A. Gustafsson i L. Poellinger. "Identification of transactivation and repression functions of the dioxin receptor and its basic helix-loop-helix/PAS partner factor Arnt: inducible versus constitutive modes of regulation." Molecular and Cellular Biology 14, nr 12 (grudzień 1994): 8343–55. http://dx.doi.org/10.1128/mcb.14.12.8343.
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Gene regulation by dioxins is mediated via the dioxin receptor, a ligand-dependent basic helix-loop-helix (bHLH)/PAS transcription factor. The latent dioxin receptor responds to dioxin signalling by forming an activated heterodimeric complex with a specific bHLH partner, Arnt, an essential process for target DNA recognition. We have analyzed the transactivating potential within this heterodimeric complex by dissecting it into individual subunits, replacing the dimerization and DNA-binding bHLH motifs with heterologous zinc finger DNA-binding domains. The uncoupled Arnt chimera, maintaining 84% of Arnt residues, forms a potent and constitutive transcription factor. Chimeric proteins show that the dioxin receptor also harbors a strong transactivation domain in the C terminus, although this activity was silenced by inclusion of 82 amino acids from the central ligand-binding portion of the dioxin receptor. This central repression region conferred binding of the molecular chaperone hsp90 upon otherwise constitutive chimeras in vitro, indicating that hsp90 has the ability to mediate a cis-repressive function on distant transactivation domains. Importantly, when the ligand-binding domain of the dioxin receptor remained intact, the ability of this hsp90-binding activity to confer repression became conditional rather than irreversible. Our data are consistent with a model in which crucial activities of the dioxin receptor, such as dimerization with Arnt and transactivation, are conditionally repressed by the central ligand- and-hsp90-binding region of the receptor. In contrast, the Arnt protein appears to be free from any repressive activity. Moreover, within the context of the dioxin response element (xenobiotic response element), the C terminus of Arnt conferred a potent, dominating transactivation function onto the native bHLH heterodimeric complex. Finally, the relative transactivation potencies of the individual dioxin receptor and Arnt chimeras varied with cell type and promoter architecture, indicating that the mechanisms for transcriptional activation may differ between these two subunits and that in the native complex the transactivation pathway may be dependent upon cell-specific and promoter contexts.
11
Whitelaw, M. L., J. A. Gustafsson i L. Poellinger. "Identification of transactivation and repression functions of the dioxin receptor and its basic helix-loop-helix/PAS partner factor Arnt: inducible versus constitutive modes of regulation". Molecular and Cellular Biology 14, nr 12 (grudzień 1994): 8343–55. http://dx.doi.org/10.1128/mcb.14.12.8343-8355.1994.
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Gene regulation by dioxins is mediated via the dioxin receptor, a ligand-dependent basic helix-loop-helix (bHLH)/PAS transcription factor. The latent dioxin receptor responds to dioxin signalling by forming an activated heterodimeric complex with a specific bHLH partner, Arnt, an essential process for target DNA recognition. We have analyzed the transactivating potential within this heterodimeric complex by dissecting it into individual subunits, replacing the dimerization and DNA-binding bHLH motifs with heterologous zinc finger DNA-binding domains. The uncoupled Arnt chimera, maintaining 84% of Arnt residues, forms a potent and constitutive transcription factor. Chimeric proteins show that the dioxin receptor also harbors a strong transactivation domain in the C terminus, although this activity was silenced by inclusion of 82 amino acids from the central ligand-binding portion of the dioxin receptor. This central repression region conferred binding of the molecular chaperone hsp90 upon otherwise constitutive chimeras in vitro, indicating that hsp90 has the ability to mediate a cis-repressive function on distant transactivation domains. Importantly, when the ligand-binding domain of the dioxin receptor remained intact, the ability of this hsp90-binding activity to confer repression became conditional rather than irreversible. Our data are consistent with a model in which crucial activities of the dioxin receptor, such as dimerization with Arnt and transactivation, are conditionally repressed by the central ligand- and-hsp90-binding region of the receptor. In contrast, the Arnt protein appears to be free from any repressive activity. Moreover, within the context of the dioxin response element (xenobiotic response element), the C terminus of Arnt conferred a potent, dominating transactivation function onto the native bHLH heterodimeric complex. Finally, the relative transactivation potencies of the individual dioxin receptor and Arnt chimeras varied with cell type and promoter architecture, indicating that the mechanisms for transcriptional activation may differ between these two subunits and that in the native complex the transactivation pathway may be dependent upon cell-specific and promoter contexts.
12
Sjöberg, M., i B. Vennström. "Ligand-dependent and -independent transactivation by thyroid hormone receptor beta 2 is determined by the structure of the hormone response element." Molecular and Cellular Biology 15, nr 9 (wrzesień 1995): 4718–26. http://dx.doi.org/10.1128/mcb.15.9.4718.
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Chicken thyroid hormone receptor beta 2 (cTR beta 2) is likely to serve specific functions in gene regulation since it possesses a unique N-terminal domain and is expressed in very few tissues. We demonstrate here that TR beta 2 exhibits distinct transactivation properties which are dependent on the availability of ligand and on the structure of the hormone response element. First, a strong ligand-independent transactivation was observed with hormone response elements composed of direct repeats and everted repeats. Second, TR beta 2 was induced by triiodothyronine to transactivate more efficiently than TR beta 0 on palindromic and everted-repeat types of hormone response elements. However, coexpression of the retinoid X receptor reduced the strong transactivation by TR beta 2 but not by TR beta 0 via palindromic response elements, suggesting that TR beta 2 can transactivate as a homodimer. Finally, the N terminus of TR beta 2 contains two distinct transactivation regions rich in tyrosines, which are essential for transactivation. Our results thus show that the activity of the novel transactivating region of TR beta 2 is dependent on the organization of the half-sites in the response element.
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Boulanger, Marie-Chloé, Chen Liang, Rodney S. Russell, Rongtuan Lin, Mark T. Bedford, Mark A. Wainberg i Stéphane Richard. "Methylation of Tat by PRMT6 Regulates Human Immunodeficiency Virus Type 1 Gene Expression". Journal of Virology 79, nr 1 (1.01.2005): 124–31. http://dx.doi.org/10.1128/jvi.79.1.124-131.2005.
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ABSTRACT The human immunodeficiency virus (HIV) transactivator protein, Tat, stimulates transcription from the viral long terminal repeats via an arginine-rich transactivating domain. Since arginines are often known to be methylated, we investigated whether HIV type 1 (HIV-1) Tat was a substrate for known protein arginine methyltransferases (PRMTs). Here we identify Tat as a substrate for the arginine methyltransferase, PRMT6. Tat is specifically associated with and methylated by PRMT6 within cells. Overexpression of wild-type PRMT6, but not a methylase-inactive PRMT6 mutant, decreased Tat transactivation of an HIV-1 long terminal repeat luciferase reporter plasmid in a dose-dependent manner. Knocking down PRMT6 consistently increased HIV-1 production in HEK293T cells and also led to increased viral infectiousness as shown in multinuclear activation of a galactosidase indicator assays. Our study demonstrates that arginine methylation of Tat negatively regulates its transactivation activity and that PRMT6 acts as a restriction factor for HIV replication.
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Vallet, V., B. Antoine, P. Chafey, A. Vandewalle i A. Kahn. "Overproduction of a truncated hepatocyte nuclear factor 3 protein inhibits expression of liver-specific genes in hepatoma cells." Molecular and Cellular Biology 15, nr 10 (październik 1995): 5453–60. http://dx.doi.org/10.1128/mcb.15.10.5453.
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Transcription of hepatocyte-specific genes requires the interaction of their regulatory regions with several nuclear factors. Among them is the hepatocyte nuclear factor 3 (HNF3) family, composed of the HNF3 alpha, HNF3 beta, and HNF3 gamma proteins, which are expressed in the liver and have very similar fork head DNA binding domains. The regulatory regions of numerous hepatocyte-specific genes contain HNF3 binding sites. We examined the role of HNF3 proteins in the liver-specific phenotype by turning off the HNF3 activity in well-differentiated mhAT3F hepatoma cells. Cells were stably transfected with a vector allowing the synthesis of an HNF3 beta fragment consisting of the fork head DNA binding domain without the transactivating amino- and carboxy-terminal domains. The truncated protein was located in the nuclei of cultured hepatoma cells and competed with endogenous HNF3 proteins for binding to cognate DNA sites. Overproduction of this truncated protein, lacking any transactivating activity, induced a dramatic decrease in the expression of liver-specific genes, including those for albumin, transthyretin, transferrin, phosphoenolpyruvate carboxykinase, and aldolase B, whereas the expression of the L-type pyruvate kinase gene, containing no HNF3 binding sites, was unaltered. Neither were the concentrations of various liver-specific transcription factors (HNF3, HNF1, HNF4, and C/EBP alpha) affected. In partial revertants, with a lower ratio of truncated to full-length endogenous HNF3 proteins, previously extinguished genes were re-expressed. Thus, the transactivating domains of HNF3 proteins are needed for the proper expression of a set of liver-specific genes but not for expression of the genes encoding transcription factors found in differentiated hepatocytes.
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Morel, Yannick, Nicolas Mermod i Robert Barouki. "An Autoregulatory Loop ControllingCYP1A1 Gene Expression: Role of H2O2and NFI". Molecular and Cellular Biology 19, nr 10 (1.10.1999): 6825–32. http://dx.doi.org/10.1128/mcb.19.10.6825.
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ABSTRACT Cytochrome P450 1A1 (CYP1A1), like many monooxygenases, can produce reactive oxygen species during its catalytic cycle. Apart from the well-characterized xenobiotic-elicited induction, the regulatory mechanisms involved in the control of the steady-state activity of CYP1A1 have not been elucidated. We show here that reactive oxygen species generated from the activity of CYP1A1 limit the levels of induced CYP1A1 mRNAs. The mechanism involves the repression of theCYP1A1 gene promoter activity in a negative-feedback autoregulatory loop. Indeed, increasing the CYP1A1 activity by transfecting CYP1A1 expression vectors into hepatoma cells elicited an oxidative stress and led to the repression of a reporter gene driven by the CYP1A1 gene promoter. This negative autoregulation is abolished by ellipticine (an inhibitor of CYP1A1) and by catalase (which catalyzes H2O2 catabolism), thus implying that H2O2 is an intermediate. Down-regulation is also abolished by the mutation of the proximal nuclear factor I (NFI) site in the promoter. The transactivating domain of NFI/CTF was found to act in synergy with the arylhydrocarbon receptor pathway during the induction of CYP1A1 by 2,3,7,8-tetrachloro-p-dibenzodioxin. Using an NFI/CTF-Gal4 fusion, we show that NFI/CTF transactivating function is decreased by a high activity of CYP1A1. This regulation is also abolished by catalase or ellipticine. Consistently, the transactivating function of NFI/CTF is repressed in cells treated with H2O2, a novel finding indicating that the transactivating domain of a transcription factor can be targeted by oxidative stress. In conclusion, an autoregulatory loop leads to the fine tuning of theCYP1A1 gene expression through the down-regulation of NFI activity by CYP1A1-based H2O2 production. This mechanism allows a limitation of the potentially toxic CYP1A1 activity within the cell.
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Sasse, J., U. Hemmann, C. Schwartz, U. Schniertshauer, B. Heesel, C. Landgraf, J. Schneider-Mergener, P. C. Heinrich i F. Horn. "Mutational analysis of acute-phase response factor/Stat3 activation and dimerization." Molecular and Cellular Biology 17, nr 8 (sierpień 1997): 4677–86. http://dx.doi.org/10.1128/mcb.17.8.4677.
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Signal transducer and transcription (STAT) factors are activated by tyrosine phosphorylation in response to a variety of cytokines, growth factors, and hormones. Tyrosine phosphorylation triggers dimerization and nuclear translocation of these transcription factors. In this study, the functional role of carboxy-terminal portions of the STAT family member acute-phase response factor/Stat3 in activation, dimerization, and transactivating potential was analyzed. We demonstrate that truncation of 55 carboxy-terminal amino acids causes constitutive activation of Stat3 in COS-7 cells, as is known for the Stat3 isoform Stat3beta. By the use of deletion and point mutants, it is shown that both carboxy- and amino-terminal portions of Stat3 are involved in this phenomenon. Dimerization of Stat3 was blocked by point mutations affecting residues both in the vicinity of the tyrosine phosphorylation site (Y705) and more distant from this site, suggesting that multiple interactions are involved in dimer formation. Furthermore, by reporter gene assays we demonstrate that carboxy-terminally truncated Stat3 proteins are incapable of transactivating an interleukin-6-responsive promoter in COS-7 cells. In HepG2 hepatoma cells, however, these truncated Stat3 forms transmit signals from the interleukin-6 signal transducer gp130 equally well as does full-length Stat3. We conclude that, dependent on the cell type, different mechanisms allow Stat3 to regulate target gene transcription either with or without involvement of its putative carboxy-terminal transactivation domain.
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Haseeb, Abdul, i Véronique Lefebvre. "The SOXE transcription factors—SOX8, SOX9 and SOX10—share a bi-partite transactivation mechanism". Nucleic Acids Research 47, nr 13 (13.06.2019): 6917–31. http://dx.doi.org/10.1093/nar/gkz523.
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Abstract SOX8, SOX9 and SOX10 compose the SOXE transcription factor group. They govern cell fate and differentiation in many lineages, and mutations impairing their activity cause severe diseases, including campomelic dysplasia (SOX9), sex determination disorders (SOX8 and SOX9) and Waardenburg-Shah syndrome (SOX10). However, incomplete knowledge of their modes of action limits disease understanding. We here uncover that the proteins share a bipartite transactivation mechanism, whereby a transactivation domain in the middle of the proteins (TAM) synergizes with a C-terminal one (TAC). TAM comprises amphipathic α-helices predicted to form a protein-binding pocket and overlapping with minimal transactivation motifs (9-aa-TAD) described in many transcription factors. One 9-aa-TAD sequence includes an evolutionarily conserved and functionally required EΦ[D/E]QYΦ motif. SOXF proteins (SOX7, SOX17 and SOX18) contain an identical motif, suggesting evolution from a common ancestor already harboring this motif, whereas TAC and other transactivating SOX proteins feature only remotely related motifs. Missense variants in this SOXE/SOXF-specific motif are rare in control individuals, but have been detected in cancers, supporting its importance in development and physiology. By deepening understanding of mechanisms underlying the central transactivation function of SOXE proteins, these findings should help further decipher molecular networks essential for development and health and dysregulated in diseases.
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Ratziu, Vlad, Avraham Lalazar, Linda Wong, Qi Dang, Colin Collins, Eitan Shaulian, Susan Jensen i Scott L. Friedman. "Zf9, a Kruppel-like transcription factor up-regulatedin vivoduring early hepatic fibrosis". Proceedings of the National Academy of Sciences 95, nr 16 (4.08.1998): 9500–9505. http://dx.doi.org/10.1073/pnas.95.16.9500.
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Wound repair in the liver induces altered gene expression in stellate cells (resident mesenchymal cells) in a process known as “activation.” A zinc finger transcription factor cDNA,zf9, was cloned from rat stellate cells activatedin vivo. Zf9 expression and biosynthesis are increased markedly in activated cellsin vivocompared with cells from normal rats (“quiescent” cells). The factor is localized to the nucleus and the perinuclear zone in activated but not quiescent cells. Zf9 mRNA also is expressed widely in nonhepatic adult rat tissues and the fetal liver. Thezf9nucleotide sequence predicts a member of the Kruppel-like family with a unique N-terminal domain rich in serine–proline clusters and leucines. The humanzf9gene maps to chromosome 10P near the telomere. Zf9 binds specifically to a DNA oligonucleotide containing a GC box motif. The N-terminal domain of Zf9 (amino acids 1–201) is transactivating in the chimeric GAL4 hybrid system. InDrosophila schneidercells, full length Zf9 transactivates a reporter construct driven by the SV40 promoter/enhancer, which contains several GC boxes. A physiologic role for Zf9 is suggested by its transactivation of a collagen α1(I) promoter reporter. Transactivation of collagen α1(I) by Zf9 is context-dependent, occurring strongly in stellate cells, modestly in Hep G2 cells, and not at all inD. schneidercells. Our results suggest that Zf9 may be an important signal in hepatic stellate cell activation after liver injury.
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SUAUD, Laurence, Pierre FORMSTECHER i Bernard LAINE. "The activity of the activation function 2 of the human hepatocyte nuclear factor 4 (HNF-4α) is differently modulated by F domains from various origins". Biochemical Journal 340, nr 1 (10.05.1999): 161–69. http://dx.doi.org/10.1042/bj3400161.
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Hepatocyte nuclear factor 4 (HNF-4) is a member of the nuclear hormone-receptor superfamily, which plays an important role in the regulation of several genes involved in numerous metabolic pathways. HNF-4 contains a DNA-binding domain located in domain C and two activation-function domains, designated AF-1 and AF-2, located in domains A/B and E, respectively. The seven isoforms of human HNF-4, termed α1-α6 and γ, differ mainly by their A/B and F domains. The high sequence variability of the F domain led us to investigate whether this domain modulates the transcriptional activity of HNF-4. Using constructs having the same core receptor and different F domains, we observed that the F domains of HNF-4 modulate the transactivating activity of the full-length HNF-4. A more precise analysis using HNF-4α AF-2 fused to GAL4 protein and various F domains demonstrated that F domains of isoforms α3 and γ exhibited inhibitory effects on the activation function AF-2 but that their inhibition behaviours were weaker than that of HNF-4α2 F domain, which has been reported previously. The presence of domain F results in a decreased interaction with the co-activator glucocorticoid receptor-interacting protein 1. For a given F domain, the modulating effects on the full-length HNF-4 as well as on the AF-2 depended on the target promoters. Our results suggest that the presence of domain F results in conformation changes in HNF-4 AF-2 or in its spatial environment, which probably modify the interaction of the AF-2 activation domain with co-factors and transcription factors bound to cis-elements of the target promoters.
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Sala, A., T. Bellon, P. Melotti, C. Peschle i B. Calabretta. "Inhibition of erythro-myeloid differentiation by constitutive expression of a DNA binding-deficient c-myb mutant: implication for c- myb function". Blood 86, nr 9 (1.11.1995): 3404–12. http://dx.doi.org/10.1182/blood.v86.9.3404.bloodjournal8693404.
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The c-myb proto-oncogene encodes a nuclear protein involved in the regulation of cell proliferation, differentiation, and development. Myb protein contains a DNA binding and a transactivating domain thought to mediate its biologic properties. The DNA binding domain consists of three repeats (R1, R2, and R3), each containing a highly conserved motif of tryptophan residues. A c-myb mutant (DR1-myb) lacking the last 46 amino acids of R1 and 23 amino terminal residues of R2, a region homologous to the ADA-2 yeast transcriptional adaptor, lost DNA binding ability, but remained able to transactivate the human heat-shock promoter. Transfection of murine 32D and murine erythroleukemia (MEL) cell lines with DR1-myb caused inhibition of cellular differentiation induced by granulocyte colony-stimulating factor (G-CSF) and dimethyl sulfoxide (DMSO), respectively. A second c-myb mutant (D-ADA2-myb) lacking the first 23 amino acids of R2, also lost DNA binding and transactivation activity, but did not inhibit DMSO-induced differentiation of MEL transfected cells. These findings suggest that deletion of R1 activates a DNA binding-independent mechanism of c-myb function, which may involve interaction of Myb with cellular factors.
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Wang, Gang G., Martina P. Pasillas i Mark P. Kamps. "Fusion to Vp16 Converts MEIS1 into an Oncoprotein That Immortalizes Progenitors and Causes AML in the Absence of Coexpressed Hox Genes: Hoxa7 and Hoxa9 Induced Further Stem Cell Gene Transcription in Vp16MEIS1 Progenitors." Blood 106, nr 11 (16.11.2005): 662. http://dx.doi.org/10.1182/blood.v106.11.662.662.
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Abstract MEIS1 and Hoxa9 are homeobox transcription factors that promote self-renewal in hematopoietic progenitors. MEIS1 does not induce leukemia, but cooperates strongly with Hoxa9 to produce acute myeloid leukemia (AML). Previously, we demonstrated that Hoxa9 blocks differentiation of myeloid progenitors that do not express MEIS1 and do not induce leukemic. Coexpression of MEIS1 causes transcription of genes that segregate with the leukemia-initiating subset of human AML blasts, such as CD34 and FLT3. We designate these genes as leukemic stem cell genes, or LSC genes. MEIS1 promoted LCS gene transcription by a mechanism that requires interaction with PBX and DNA, and that also requires a short MEIS1 C-terminal transactivation domain (CTD). Here we use a dominant transactivating or transrepressing form of MEIS1 to determine whether the activation or repression function of Pbx:MEIS1 complexes is sufficient to cause myeloid leukemia in combination with coexpressed Hoxa9. Surprisingly, fusion of MEIS1 to the Vp16 transactivation domain (but not the engrailed transrepression domain) produced an autonomous oncoprotein that immortalized progenitors and caused myeloid leukemias without the need for coexpressed exogenous or endogenous Hox genes. Like MEIS1, Vp16MEIS1 required binding to Pbx and DNA for immortalization; however, the CTD was not necessary in the context of Vp16MEIS1. This suggests that the CTD participates in target gene activation in AML blasts, a function replaced by Vp16 in its absence. Retroviral expression of Hoxa9 or Hoxa7 induced a further, strong, transcriptional upregulation of LSC genes in Vp16MEIS1 progenitors and elevated their leukemic potential to the level of bona fide AML blasts. These data suggest that transactivation is the essential function of Pbx:MEIS1 complexes in AML, and that HOX proteins cooperate with Pbx:MEIS1 complexes to activate transcription of early progenitor genes whose expression is required for human AML.
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Lee, Y. H., S. C. Williams, M. Baer, E. Sterneck, F. J. Gonzalez i P. F. Johnson. "The ability of C/EBP beta but not C/EBP alpha to synergize with an Sp1 protein is specified by the leucine zipper and activation domain." Molecular and Cellular Biology 17, nr 4 (kwiecień 1997): 2038–47. http://dx.doi.org/10.1128/mcb.17.4.2038.
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The rat CYP2D5 P-450 gene is activated in the liver during postnatal development. We previously showed that liver-specific transcription of the CYP2D5 gene is dictated by a proximal promoter element, termed 2D5, that is composed of a binding site for Sp1 or a related factor, and an adjacent cryptic C/EBP (CCAAT/enhancer-binding protein) site. Despite the fact that both C/EBP alpha and C/EBP beta are expressed abundantly in liver, only C/EBP beta is capable of stimulating the 2D5 promoter in HepG2 hepatocarcinoma cells. In addition, activation of the 2D5 promoter by C/EBP beta is completely dependent on the presence of the Sp1 site. Domain switch experiments reveal that C/EBP beta proteins containing either the leucine zipper or the activation domain of C/EBP alpha are unable to stimulate the 2D5 promoter yet are fully capable of transactivating an artificial promoter bearing a high-affinity C/EBP site. Thus, the leucine zipper and the activation domain of C/EBP beta are absolutely required to support transactivation of the 2D5 promoter. Using Drosophila cells that lack endogenous Sp1 activity, we show that the serine/threonine- and glutamine-rich activation domains A and B of Sp1 are required for efficient cooperatively with C/EBP beta. Furthermore, analysis of c/ebp beta-deficient mice shows that mutant animals are defective in expression of a murine CYP2D5 homolog in hepatic cells, confirming the selective ability of C/EBP beta to activate this liver-specific P-450 gene in vivo. Our findings illustrate that two members of a transcription factor family can achieve distinct target gene specificities through differential interactions with a cooperating Sp1 protein.
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Stamminger, Thomas, Matthias Gstaiger, Konstanze Weinzierl, Kerstin Lorz, Michael Winkler i Walter Schaffner. "Open Reading Frame UL26 of Human Cytomegalovirus Encodes a Novel Tegument Protein That Contains a Strong Transcriptional Activation Domain". Journal of Virology 76, nr 10 (15.05.2002): 4836–47. http://dx.doi.org/10.1128/jvi.76.10.4836-4847.2002.
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ABSTRACT A selection strategy, the activator trap, was used in order to identify genes of human cytomegalovirus (HCMV) that encode strong transcriptional activation domains in mammalian cells. This approach is based on the isolation of activation domains from a GAL4 fusion library by means of selective plasmid replication, which is mediated in transfected cells by a GAL4-inducible T antigen gene. With this screening strategy, we were able to isolate two types of plasmids encoding transactivating fusion proteins from a library of random HCMV DNA inserts. One plasmid contained the exon 3 of the HCMV IE-1/2 gene region, which has previously been identified as a strong transcriptional activation domain. In the second type of plasmid, the open reading frame (ORF) UL26 of HCMV was fused to the GAL4 DNA-binding domain. By quantitative RNA mapping using S1 nuclease analysis, we were able to classify UL26 as a strong enhancer-type activation domain with no apparent homology to characterized transcriptional activators. Western blot analysis with a specific polyclonal antibody raised against a prokaryotic UL26 fusion protein revealed that two protein isoforms of 21 and 27 kDa are derived from the UL26 ORF in both infected and transfected cells. Both protein isoforms, which arise via alternative usage of two in-frame translational start codons, showed a nuclear localization and could be detected as early as 6 h after infection of primary human fibroblasts. By performing Western blot analysis with purified virions combined with fractionation experiments, we provide evidence that pUL26 is a novel tegument protein of HCMV that is imported during viral infection. Furthermore, we observed transactivation of the HCMV major immediate-early enhancer-promoter by pUL26, whereas several early and late promoters were not affected. Our data suggest that pUL26 is a novel tegument protein of HCMV with a strong transcriptional activation domain that could play an important role during initiation of the viral replicative cycle.
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Del Sal, G., E. M. Ruaro, R. Utrera, C. N. Cole, A. J. Levine i C. Schneider. "Gas1-induced growth suppression requires a transactivation-independent p53 function." Molecular and Cellular Biology 15, nr 12 (grudzień 1995): 7152–60. http://dx.doi.org/10.1128/mcb.15.12.7152.
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In normal cells, induction of quiescence is accompanied by the increased expression of growth arrest-specific genes (gas). One of them, gas1, is regulated at the transcriptional level and codes for a membrane-associated protein (Gas1) which is down regulated during the G0-to-S phase transition in serum-stimulated cells. Gas1 is not expressed in growing or transformed cells, and when overexpressed in normal fibroblasts, it blocks the G0-to-S phase transition. Moreover, Gas1 blocks cell proliferation in several transformed cells with the exception of simian virus 40- or adenovirus-transformed cell lines. In this paper, we demonstrate that overexpression of Gas1 blocks cell proliferation in a p53-dependent manner and that the N-terminal domain-dependent transactivating function of p53 is dispensable for Gas1-induced growth arrest. These data therefore indicate that the other intrinsic transactivation-independent functions of p53, possibly related to regulation of apoptosis, should be involved in mediating Gas1-induced growth arrest.
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Kofod-Olsen, Emil, Katrine Ross-Hansen, Jacob Giehm Mikkelsen i Per Höllsberg. "Human herpesvirus 6B U19 protein is a PML-regulated transcriptional activator that localizes to nuclear foci in a PML-independent manner". Journal of General Virology 89, nr 1 (1.01.2008): 106–16. http://dx.doi.org/10.1099/vir.0.83224-0.
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Human herpesvirus 6B (HHV-6B) contains an IE-B domain spanning open reading frames U16/17–U19, based on homology with human cytomegalovirus. Here, the protein product, U19, of the HHV-6B U19 gene is identified as a 47 kDa transcriptional activator. HHV-6B infection or overexpression of U19 transactivated the RANTES promoter. Mutational analysis of the promoter indicated that transactivation was not critically dependent on the promoter sites CRE, NF-κB, ISRE or NF-IL6. ND10 are nuclear substructures that are involved in several cellular regulatory pathways, including those controlling gene expression. HHV-6B infection resulted in a reduced number of ND10 structures, but with a concomitantly increased level of promyelocytic leukaemia (PML) protein expression and mRNA induction. The U19 protein co-located to ND10 with PML and heterochromatin protein 1 (HP1), but whilst PML formed a ring structure, U19 also localized to the centre of ND10. Knockdown of PML by small interfering RNA did not prevent U19 localization to ND10-like foci, but instead led to a fourfold increase in U19-induced transcription from the RANTES promoter. Generation of four truncated U19 proteins indicated that the N-terminal portion of the protein contains a sequence responsible for nuclear localization; a domain in the N-terminal half of U19 is responsible for its ND10 localization, whereas the C-terminal portion contains the transactivation domain. None of the truncated proteins retained full transactivating ability on the RANTES promoter. Thus, U19 is a transcriptional activator that co-localizes with PML and localizes to ND10-like foci independently of PML, yet is regulated negatively by PML or its associated proteins.
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Dumond, Jenna F., Xue Zhang, Yuichiro Izumi, Kevin Ramkissoon, Guanghui Wang, Marjan Gucek, Xujing Wang, Maurice B. Burg i Joan D. Ferraris. "Peptide affinity analysis of proteins that bind to an unstructured region containing the transactivating domain of the osmoprotective transcription factor NFAT5". Physiological Genomics 48, nr 11 (1.11.2016): 835–49. http://dx.doi.org/10.1152/physiolgenomics.00100.2016.
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NFAT5 is a transcription factor originally identified because it is activated by hypertonicity and that activation increases expression of genes that protect against the adverse effects of the hypertonicity. However, its targets also include genes not obviously related to tonicity. The transactivating domain of NFAT5 is contained in its COOH-terminal region, which is predicted to be unstructured. Unstructured regions are common in transcription factors particularly in transactivating domains where they can bind co-regulatory proteins essential to their function. To identify potential binding partners of NFAT5 from either cytoplasmic or nuclear HEK293 cell extracts, we used peptide affinity chromatography followed by mass spectrometry. Peptide aptamer-baits consisted of overlapping 20 amino acid peptides within the predicted COOH-terminal unstructured region of NFAT5. We identify a total of 351 unique protein preys that associate with at least one COOH-terminal peptide bait from NFAT5 in either cytoplasmic or nuclear extracts from cells incubated at various tonicities (NaCl varied). In addition to finding many proteins already known to associate with NFAT5, we found many new ones whose function suggest novel aspects of NFAT5 regulation, interaction, and function. Relatively few of the proteins pulled down by peptide baits from NFAT5 are generally involved in transcription, and most, therefore, are likely to be specifically related to the regulation of NFAT5 or its function. The novel associated proteins are involved with cancer, effects of hypertonicity on chromatin, development, splicing of mRNA, transcription, and vesicle trafficking.
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Sandmöller, A., H. Meents i H. H. Arnold. "A novel E1A domain mediates skeletal-muscle-specific enhancer repression independently of pRB and p300 binding." Molecular and Cellular Biology 16, nr 10 (październik 1996): 5846–56. http://dx.doi.org/10.1128/mcb.16.10.5846.
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The adenovirus E1A oncoprotein completely blocks muscle differentiation and specifically inhibits the transactivating function of myogenic basic helix-loop-helix (bHLH) transcription factors. This inhibition is dependent on the conserved region CR1 of E1A, which also constitutes part of the binding sites for the pocket proteins pRB, p107, and p130 and the transcriptional coactivators p300 and CBP. Here we report a detailed mutational analysis of E1A and the identification of a muscle inhibition motif within CR1. This motif encompasses amino acids 38 to 62 and inhibits Myf-5- or MyoD-mediated activation of myogenin and the muscle creatine kinase gene. Overexpression of this E1A region also inhibits the conversion of 10T1/2 fibroblasts to the myogenic lineage. The sequence motif EPDNEE (amino acids 55 to 60) within CR1 appears to be particularly important, because point mutations of this sequence diminish the E1A inhibitory activity. Interactions of E1A with pRB and with p300 do not seem to be necessary for the muscle-specific enhancer repression, because E1A mutants which lack these interactions still inhibit Myf-5- and MyoD-mediated transactivation. Moreover, overexpression of p300 fails to overcome muscle-specific inhibition by wild-type E1A and mutant E1A protein which lacks pRB binding. Since we have no evidence for direct E1A interaction with bHLH proteins, we propose that E1A may target a necessary cofactor of the muscle-specific bHLH transcription complex.
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Feederle, R., i H. J. Delecluse. "Low Level of Lytic Replication in a Recombinant Epstein-Barr Virus Carrying an Origin of Replication Devoid of BZLF1-Binding Sites". Journal of Virology 78, nr 21 (1.11.2004): 12082–84. http://dx.doi.org/10.1128/jvi.78.21.12082-12084.2004.
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ABSTRACT Binding of the BZLF1 viral transactivator to Epstein-Barr virus (EBV) oriLyt has been reported to be essential for viral DNA replication. We have constructed a recombinant virus (E2-oriLyt-R) in which the oriLyt BZLF1-binding sites (ZRE) were exchanged against papilloma E2-binding sites. A fusion protein between the BZLF1 protein-transactivating domain and the E2 protein-binding domain was able to reactivate lytic replication in E2-oriLyt-R. However, BZLF1 alone could also induce E2-oriLyt-R, albeit with much lower efficiency. ZRE are therefore important but not absolutely essential cis elements for lytic replication. This shows the importance of recombinants to evaluate viral functions.
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Sheppard, Karen E. "II. Intestinal corticosteroid receptors". American Journal of Physiology-Gastrointestinal and Liver Physiology 282, nr 5 (1.05.2002): G742—G746. http://dx.doi.org/10.1152/ajpgi.00531.2001.
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Two corticosteroid receptors have been cloned; they are the glucocorticoid receptor and the mineralocorticoid receptor. These receptors are members of the steroid/thyroid/retinoid receptor family of nuclear transactivating factors, which are characterized by two highly conserved zinc fingers in the central DNA binding domain, a COOH-terminal domain that encompasses the ligand binding site, and a variable NH2-terminal domain. In addition to these cloned receptors, other corticosteroid receptors have recently been identified in intestine. Steroid binding studies have identified two novel putative corticosteroid receptors in intestinal epithelia, and molecular cloning studies have detected two low-affinity receptors in small intestine that are activated by corticosteroids and induce CYP3A gene expression. This article focuses on the identification of these novel corticosteroid receptors and the potential role they may play in intestinal physiology.
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Kusano, Shuichi, Makoto Yoshimitsu, Miho Hachiman i Masanori Ikeda. "I-mfa domain proteins specifically interact with HTLV-1 Tax and repress its transactivating functions". Virology 486 (grudzień 2015): 219–27. http://dx.doi.org/10.1016/j.virol.2015.09.020.
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Pilz, Andreas, Katrin Ramsauer, Hamid Heidari, Michael Leitges, Pavel Kovarik i Thomas Decker. "Phosphorylation of the Stat1 transactivating domain is required for the response to type I interferons". EMBO reports 4, nr 4 (21.03.2003): 368–73. http://dx.doi.org/10.1038/sj.embor.embor802.
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Fahnestock, M. L., i J. B. Lewis. "Genetic dissection of the transactivating domain of the E1a 289R protein of adenovirus type 2." Journal of Virology 63, nr 4 (1989): 1495–504. http://dx.doi.org/10.1128/jvi.63.4.1495-1504.1989.
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Pane, Fabrizio, Mariano Intrieri, Barbara Izzo, Concetta Quintarelli, Domenico Vitale, Roberta Migliorati, Lucia Sebastio i Francesco Salvatore. "A novel MLL/AF4 fusion gene lacking theAF4 transactivating domain in infant acute lymphoblastic leukemia". Blood 100, nr 12 (1.12.2002): 4247–48. http://dx.doi.org/10.1182/blood-2002-07-2203.
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Ritter, Steven E., Thomas M. Whitten, Anne T. Quets i Robert H. Schloemer. "An internal domain of the hepatitis B virus X antigen is necessary for transactivating activity". Virology 182, nr 2 (czerwiec 1991): 841–45. http://dx.doi.org/10.1016/0042-6822(91)90626-m.
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Chen, Jiguo, Keiji Ueda, Shuhei Sakakibara, Toshiomi Okuno i Koichi Yamanishi. "Transcriptional Regulation of the Kaposi's Sarcoma-Associated Herpesvirus Viral Interferon Regulatory Factor Gene". Journal of Virology 74, nr 18 (15.09.2000): 8623–34. http://dx.doi.org/10.1128/jvi.74.18.8623-8634.2000.
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ABSTRACT The Kaposi's sarcoma-associated herpesvirus (KSHV), or human herpesvirus 8, open reading frame (ORF) K9 encodes a viral interferon regulatory factor (vIRF) that functions as a repressor for interferon-mediated signal transduction. Consequently, this gene is thought to play an important role in the tumorigenicity of KSHV. To understand the molecular mechanisms underlying vIRF expression, we studied the transcriptional regulation of this gene. Experiments using 5′ rapid amplification of cDNA ends and primer extension revealed that vIRF had different transcriptional patterns during the latent and lytic phases. The promoter region of the minor transcript, which was mainly expressed in uninduced BCBL-1 cells, did not contain a canonical TATA box, but a cap-like element and an initiator element flanked the transcription start site. The promoter of the major transcript, which was mainly expressed in tetradecanoyl phorbol acetate-induced BCBL-1 cells, contained a canonical TATA box. A luciferase reporter assay using a deletion mutant of the vIRF promoter and a mutation in the TATA box showed that the TATA box was critical for the lytic activity of vIRF. The promoter activity in the latent phase was eight times stronger than that of the empty vector but was less than 10% of the activity in the lytic phase. Therefore, KSHV may use different functional promoter elements to regulate the expression of vIRF and to antagonize the cell's interferon-mediated antiviral activity. We have also identified a functional domain in the ORF 50 protein, an immediate-early gene product that is mainly encoded by ORF 50. The ORF 50 protein transactivated the vIRF and DNA polymerase promoters in BCBL-1, 293T, and CV-1 cells. Deleting one of its two putative nuclear localization signals (NLSs) resulted in failure of the ORF 50 protein to localize to the nucleus and consequently abrogated its transactivating activity. We further confirmed that the N-terminal region of the ORF 50 protein included an NLS domain. We found that this domain was sufficient to translocate β-galactosidase to the nucleus. Analysis of deletions within the vIRF promoter suggested that two sequence domains were important for its transactivation by the ORF 50 protein, both of which included putative SP-1 and AP-1 binding sites. Competition gel shift assays demonstrated that SP-1 bound to these two domains, suggesting that the SP-1 binding sites in the vIRF promoter are involved in its transactivation by ORF 50.
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Xu, Wanping, Xitong Yuan, Kristin Beebe, Zhexin Xiang i Len Neckers. "Loss of Hsp90 Association Up-Regulates Src-Dependent ErbB2 Activity". Molecular and Cellular Biology 27, nr 1 (9.10.2006): 220–28. http://dx.doi.org/10.1128/mcb.00899-06.
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ABSTRACT The receptor tyrosine kinase ErbB2 plays a crucial role in tumorigenesis. We showed previously that the molecular chaperone Hsp90 protects ErbB2 from proteasome-mediated degradation by binding to a short loop structure in the N-lobe of the kinase domain. Here we show that loss of Hsp90 binding correlates with enhanced ErbB2 kinase activity and its transactivating potential, concomitant with constitutively increased phosphorylation of Tyr877, located in the activation loop of the kinase domain. We show further that Tyr877 phosphorylation is mediated by Src and that it is necessary for the enhanced kinase activity of ErbB2. Finally, computer modeling of the kinase domain suggests a phosphorylation-dependent reorientation of the activation loop, denoting the importance of Tyr877 phosphorylation for ErbB2 activity. These findings suggest that Hsp90 binding to ErbB2 participates in regulation of kinase activity as well as kinase stability.
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Labalette, Charlotte, Claire-Angélique Renard, Christine Neuveut, Marie-Annick Buendia i Yu Wei. "Interaction and Functional Cooperation between the LIM Protein FHL2, CBP/p300, and β-Catenin". Molecular and Cellular Biology 24, nr 24 (15.12.2004): 10689–702. http://dx.doi.org/10.1128/mcb.24.24.10689-10702.2004.
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ABSTRACT Transcriptional activation of gene expression by Wnt signaling is driven by the association of β-catenin with TCF/LEF factors and the recruitment of transcriptional coactivators. It has been shown that the LIM protein FHL2 and the acetyltransferase CBP/p300 individually stimulate β-catenin transactivating activity and that β-catenin is acetylated by p300. Here, we report that FHL2 and CBP/p300 synergistically enhanced β-catenin/TCF-mediated transcription from Wnt-responsive promoters and that the acetyltransferase activity of CBP/p300 was involved in the cooperation. CBP/p300 interacted directly with FHL2, predominantly through the CH3 domain but not the histone acetyltransferase domain, and different regions of CBP/p300 were involved in FHL2 and β-catenin binding. We provided evidence for the formation of a ternary complex by FHL2, CBP/p300, and β-catenin and for colocalization of the three proteins in the nucleus. In murine FHL2−/− embryo fibroblasts, the transactivation activity of β-catenin/TCF was markedly reduced, and this defect could be restored by exogenous expression of FHL2. However, CBP/p300 were still able to coactivate the β-catenin/TCF complex in FHL2−/− cells, suggesting that FHL2 is dispensable for the coactivator function of CBP/p300 on β-catenin. Furthermore, we found that FHL2 significantly increased acetylation of β-catenin by p300 in vivo. Finally, we showed that FHL2, CBP/p300, and β-catenin could synergistically activate androgen receptor-mediated transcription, indicating that the synergistic coactivator function is not restricted to TCF/LEF.
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Bergers, G., P. Graninger, S. Braselmann, C. Wrighton i M. Busslinger. "Transcriptional activation of the fra-1 gene by AP-1 is mediated by regulatory sequences in the first intron." Molecular and Cellular Biology 15, nr 7 (lipiec 1995): 3748–58. http://dx.doi.org/10.1128/mcb.15.7.3748.
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Constitutive expression of c-Fos, FosB, Fra-1, or c-Jun in rat fibroblasts leads to up-regulation of the immediate-early gene fra-1. Using the posttranslational FosER induction system, we demonstrate that this AP-1-dependent stimulation of fra-1 expression is rapid, depends on a functional DNA-binding domain of FosER, and is a general phenomenon observed in different cell types. In vitro mutagenesis and functional analysis of the rat fra-1 gene in stably transfected Rat-1A-FosER fibroblasts indicated that basal and AP-1-regulated expression of the fra-1 gene depends on regulatory sequences in the first intron which comprise a consensus AP-1 site and two AP-1-like elements. We have also investigated the transactivating and transforming properties of the Fra-1 protein to address the significance of fra-1 up-regulation. The entire Fra-1 protein fused to the DNA-binding domain of Ga14 is shown to lack any transactivation function, and yet it possesses oncogenic potential, as overexpression of Fra-1 in established rat fibroblasts results in anchorage-independent growth in vitro and tumor development in athymic mice, fra-1 is therefore not only induced by members of the Fos family, but its gene product may also contribute to cellular transformation by these proteins. Together, these data identify fra-1 as a unique member of the fos gene family which is under positive control by AP-1 activity.
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Casanova, J., E. Helmer, S. Selmi-Ruby, J. S. Qi, M. Au-Fliegner, V. Desai-Yajnik, N. Koudinova, F. Yarm, B. M. Raaka i H. H. Samuels. "Functional evidence for ligand-dependent dissociation of thyroid hormone and retinoic acid receptors from an inhibitory cellular factor." Molecular and Cellular Biology 14, nr 9 (wrzesień 1994): 5756–65. http://dx.doi.org/10.1128/mcb.14.9.5756.
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The ligand-binding domains of thyroid hormone (L-triiodothyronine [T3]) receptors (T3Rs), all-trans retinoic acid (RA) receptors (RARs), and 9-cis RA receptors (RARs and RXRs) contain a series of heptad motifs thought to be important for dimeric interactions. Using a chimera containing amino acids 120 to 392 of chicken T3R alpha (cT3R alpha) positioned between the DNA-binding domain of the yeast GAL4 protein and the potent 90-amino-acid transactivating domain of the herpes simplex virus VP16 protein (GAL4-T3R-VP16), we provide functional evidence that binding of ligand releases T3Rs and RARs from an inhibitory cellular factor. GAL4-T3R-VP16 does not bind T3 and does not activate transcription from a GAL4 reporter when expressed alone but is able to activate transcription when coexpressed with unliganded T3R or RAR. This activation is reversed by T3 or RA, suggesting that these receptors compete with GAL4-T3R-VP16 for a cellular inhibitor and that ligand reverses this effect by dissociating T3R or RAR from the inhibitor. A chimera containing the entire ligand-binding domain of cT3R alpha (amino acids 120 to 408) linked to VP16 [GAL4-T3R(408)-VP16] is activated by unliganded receptor as well as by T3. In contrast, GAL4-T3R containing the amino acid 120 to 408 ligand-binding region without the VP16 domain is activated only by T3. The highly conserved ninth heptad, which is involved in heterodimerization, appears to participate in the receptor-inhibitor interaction, suggesting that the inhibitor is a related member of the receptor gene family. In striking contrast to T3R and RAR, RXR activates GAL4-T3R-VP16 only with its ligand, 9-cis RA, but unliganded RXR does not appear to be the inhibitor suggested by these studies. Further evidence that an orphan receptor may be the inhibitor comes from our finding that COUP-TF inhibits activation of GAL4-T3R-VP16 by unliganded T3R and the activation of GAL4-T3R by T3. These and other results suggest that an inhibitory factor suppresses transactivation by the T3Rs and RARs while these receptors are bound to DNA and that ligands act, in part, by inactivating or promoting dissociation of a receptor-inhibitor complex.
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Casanova, J., E. Helmer, S. Selmi-Ruby, J. S. Qi, M. Au-Fliegner, V. Desai-Yajnik, N. Koudinova, F. Yarm, B. M. Raaka i H. H. Samuels. "Functional evidence for ligand-dependent dissociation of thyroid hormone and retinoic acid receptors from an inhibitory cellular factor". Molecular and Cellular Biology 14, nr 9 (wrzesień 1994): 5756–65. http://dx.doi.org/10.1128/mcb.14.9.5756-5765.1994.
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The ligand-binding domains of thyroid hormone (L-triiodothyronine [T3]) receptors (T3Rs), all-trans retinoic acid (RA) receptors (RARs), and 9-cis RA receptors (RARs and RXRs) contain a series of heptad motifs thought to be important for dimeric interactions. Using a chimera containing amino acids 120 to 392 of chicken T3R alpha (cT3R alpha) positioned between the DNA-binding domain of the yeast GAL4 protein and the potent 90-amino-acid transactivating domain of the herpes simplex virus VP16 protein (GAL4-T3R-VP16), we provide functional evidence that binding of ligand releases T3Rs and RARs from an inhibitory cellular factor. GAL4-T3R-VP16 does not bind T3 and does not activate transcription from a GAL4 reporter when expressed alone but is able to activate transcription when coexpressed with unliganded T3R or RAR. This activation is reversed by T3 or RA, suggesting that these receptors compete with GAL4-T3R-VP16 for a cellular inhibitor and that ligand reverses this effect by dissociating T3R or RAR from the inhibitor. A chimera containing the entire ligand-binding domain of cT3R alpha (amino acids 120 to 408) linked to VP16 [GAL4-T3R(408)-VP16] is activated by unliganded receptor as well as by T3. In contrast, GAL4-T3R containing the amino acid 120 to 408 ligand-binding region without the VP16 domain is activated only by T3. The highly conserved ninth heptad, which is involved in heterodimerization, appears to participate in the receptor-inhibitor interaction, suggesting that the inhibitor is a related member of the receptor gene family. In striking contrast to T3R and RAR, RXR activates GAL4-T3R-VP16 only with its ligand, 9-cis RA, but unliganded RXR does not appear to be the inhibitor suggested by these studies. Further evidence that an orphan receptor may be the inhibitor comes from our finding that COUP-TF inhibits activation of GAL4-T3R-VP16 by unliganded T3R and the activation of GAL4-T3R by T3. These and other results suggest that an inhibitory factor suppresses transactivation by the T3Rs and RARs while these receptors are bound to DNA and that ligands act, in part, by inactivating or promoting dissociation of a receptor-inhibitor complex.
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Alani, R., P. Brown, B. Binétruy, H. Dosaka, R. K. Rosenberg, P. Angel, M. Karin i M. J. Birrer. "The transactivating domain of the c-Jun proto-oncoprotein is required for cotransformation of rat embryo cells." Molecular and Cellular Biology 11, nr 12 (grudzień 1991): 6286–95. http://dx.doi.org/10.1128/mcb.11.12.6286.
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The nuclear phosphoprotein c-Jun, encoded by the proto-oncogene c-jun, is a major component of the AP-1 complex. A potent transcriptional regulator, c-jun is also able to transform normal rat embryo cells in cooperation with an activated c-Ha-ras gene. By deletion analysis, we identified the regions of c-Jun encoding transformation and transactivation functions. Our studies indicate that there is a direct correlation between the ability of the c-Jun protein to activate transcription and cotransform rat embryo cells. The regions involved in these functions include the conserved leucine zipper/DNA binding domain and an effector domain near its N terminus. This N-terminal region spans amino acids 61 to 146 of the c-Jun protein and is highly conserved among all Jun family members. These results support the hypothesis that c-Jun transforms cells by stimulating the expression of transformation-mediating genes.
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Alani, R., P. Brown, B. Binétruy, H. Dosaka, R. K. Rosenberg, P. Angel, M. Karin i M. J. Birrer. "The transactivating domain of the c-Jun proto-oncoprotein is required for cotransformation of rat embryo cells". Molecular and Cellular Biology 11, nr 12 (grudzień 1991): 6286–95. http://dx.doi.org/10.1128/mcb.11.12.6286-6295.1991.
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The nuclear phosphoprotein c-Jun, encoded by the proto-oncogene c-jun, is a major component of the AP-1 complex. A potent transcriptional regulator, c-jun is also able to transform normal rat embryo cells in cooperation with an activated c-Ha-ras gene. By deletion analysis, we identified the regions of c-Jun encoding transformation and transactivation functions. Our studies indicate that there is a direct correlation between the ability of the c-Jun protein to activate transcription and cotransform rat embryo cells. The regions involved in these functions include the conserved leucine zipper/DNA binding domain and an effector domain near its N terminus. This N-terminal region spans amino acids 61 to 146 of the c-Jun protein and is highly conserved among all Jun family members. These results support the hypothesis that c-Jun transforms cells by stimulating the expression of transformation-mediating genes.
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Geisberg, J. V., W. S. Lee, A. J. Berk i R. P. Ricciardi. "The zinc finger region of the adenovirus E1A transactivating domain complexes with the TATA box binding protein." Proceedings of the National Academy of Sciences 91, nr 7 (29.03.1994): 2488–92. http://dx.doi.org/10.1073/pnas.91.7.2488.
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Pilz, Andreas, Wolfgang Kratky, Silvia Stockinger, Olivia Simma, Ulrich Kalinke, Karen Lingnau, Alexander von Gabain i in. "Dendritic Cells Require STAT-1 Phosphorylated at Its Transactivating Domain for the Induction of Peptide-Specific CTL". Journal of Immunology 183, nr 4 (20.07.2009): 2286–93. http://dx.doi.org/10.4049/jimmunol.0901383.
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Kim, Dongkyoon, i Philip W. Tucker. "A Regulated Nucleocytoplasmic Shuttle Contributes to Bright's Function as a Transcriptional Activator of Immunoglobulin Genes". Molecular and Cellular Biology 26, nr 6 (15.03.2006): 2187–201. http://dx.doi.org/10.1128/mcb.26.6.2187-2201.2006.
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ABSTRACT Bright/ARID3a has been implicated in mitogen- and growth factor-induced up-regulation of immunoglobulin heavy-chain (IgH) genes and in E2F1-dependent G1/S cell cycle progression. For IgH transactivation, Bright binds to nuclear matrix association regions upstream of certain variable region promoters and flanking the IgH intronic enhancer. While Bright protein was previously shown to reside within the nuclear matrix, we show here that a significant amount of Bright resides in the cytoplasm of normal and transformed B cells. Leptomycin B, chromosome region maintenance 1 (CRM1) overexpression, and heterokaryon experiments indicate that Bright actively shuttles between the nucleus and the cytoplasm in a CRM1-dependent manner. We mapped the functional nuclear localization signal to the N-terminal region of REKLES, a domain conserved within ARID3 paralogues. Residues within the C terminus of REKLES contain its nuclear export signal, whose regulation is primarily responsible for Bright shuttling. Growth factor depletion and cell synchronization experiments indicated that Bright shuttling during S phase of the cell cycle leads to an increase in its nuclear abundance. Finally, we show that shuttle-incompetent Bright point mutants, even if sequestered within the nucleus, are incapable of transactivating an IgH reporter gene. Therefore, regulation of Bright's cellular localization appears to be required for its function.
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Davido, David J., William F. von Zagorski, William S. Lane i Priscilla A. Schaffer. "Phosphorylation Site Mutations Affect Herpes Simplex Virus Type 1 ICP0 Function". Journal of Virology 79, nr 2 (15.01.2005): 1232–43. http://dx.doi.org/10.1128/jvi.79.2.1232-1243.2005.
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ABSTRACT The herpes simplex virus type 1 (HSV-1) immediate-early (IE) regulatory protein infected-cell protein 0 (ICP0) is a strong and global transactivator of both viral and cellular genes. In a previous study, we reported that ICP0 is highly phosphorylated and contains at least seven distinct phosphorylation signals as determined by phosphotryptic peptide mapping (D. J. Davido et al., J. Virol. 76:1077-1088, 2002). Since phosphorylation affects the activities of many viral regulatory proteins, we sought to determine whether the phosphorylation of ICP0 affects its functions. To address this question, it was first necessary to identify the regions of ICP0 that are phosphorylated. For this purpose, ICP0 was partially purified, and phosphorylation sites were mapped by microcapillary high-pressure liquid chromatography tandem mass spectrometry. Three phosphorylated regions containing 11 putative phosphorylation sites, all within or adjacent to domains important for the transactivating activity of ICP0, were identified. The 11 sites were mutated to alanine as clusters in each of the three regions by site-directed mutagenesis, generating plasmids expressing mutant forms of ICP0: Phos 1 (four mutated sites), Phos 2 (three mutated sites), and Phos 3 (four mutated sites). One-dimensional phosphotryptic peptide analysis confirmed that the phosphorylation state of each Phos mutant form of ICP0 is altered relative to that of wild-type ICP0. In functional assays, the ICP0 phosphorylation site mutations affected the subcellular and subnuclear localization of ICP0, its ability to alter the staining pattern of the nuclear domain 10 (ND10)-associated protein PML, and/or its transactivating activity in Vero cells. Only mutations in Phos 1, however, impaired the ability of ICP0 to complement the replication of an ICP0 null mutant in Vero cells. This study thus suggests that phosphorylation is an important regulator of ICP0 function.
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Arao, Yukitomo, Katherine J. Hamilton, Laurel A. Coons i Kenneth S. Korach. "Estrogen Receptor α L543A,L544A Mutation Changes Antagonists to Agonists, Correlating with the Ligand Binding Domain Dimerization Associated with DNA Binding Activity". Journal of Biological Chemistry 288, nr 29 (3.06.2013): 21105–16. http://dx.doi.org/10.1074/jbc.m113.463455.
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A ligand-dependent nuclear transcription factor, ERα has two transactivating functional domains (AF), AF-1 and AF-2. AF-1 is localized in the N-terminal region, and AF-2 is distributed in the C-terminal ligand-binding domain (LBD) of the ERα protein. Helix 12 (H12) in the LBD is a component of the AF-2, and the configuration of H12 is ligand-inducible to an active or inactive form. We demonstrated previously that the ERα mutant (AF2ER) possessing L543A,L544A mutations in H12 disrupts AF-2 function and reverses antagonists such as fulvestrant/ICI182780 (ICI) or 4-hydoxytamoxifen (OHT) into agonists in the AF2ER knock-in mouse. Our previous in vitro studies suggested that the mode of AF2ER activation is similar to the partial agonist activity of OHT for WT-ERα. However, it is still unclear how antagonists activate ERα. To understand the molecular mechanism of antagonist reversal activity, we analyzed the correlation between the ICI-dependent estrogen-responsive element-mediated transcription activity of AF2ER and AF2ER-LBD dimerization activity. We report here that ICI-dependent AF2ER activation correlated with the activity of AF2ER-LBD homodimerization. Prevention of dimerization impaired the ICI-dependent ERE binding and transcription activity of AF2ER. The dislocation of H12 caused ICI-dependent LBD homodimerization involving the F-domain, the adjoining region of H12. Furthermore, F-domain truncation also strongly depressed the dimerization of WT-ERα-LBD with antagonists but not with E2. AF2ER activation levels with ICI, OHT, and raloxifene were parallel with the degree of AF2ER-LBD homodimerization, supporting a mechanism that antagonist-dependent LBD homodimerization involving the F-domain results in antagonist reversal activity of H12-mutated ERα.
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CHEN, Feifei, Kenji OGAWA, Xubao LIU, Teresa M. STRINGFIELD i Yan CHEN. "Repression of Smad2 and Smad3 transactivating activity by association with a novel splice variant of CCAAT-binding factor C subunit". Biochemical Journal 364, nr 2 (1.06.2002): 571–77. http://dx.doi.org/10.1042/bj20011703.
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Activation by transforming growth factor-β (TGF-β)/activin receptors leads to phosphorylation of Smad2 (Sma- and Mad-related protein 2) and Smad3, which function as transcription factors to regulate gene expression. Using the MH2 domain (Mad homologue domain of Smad proteins 2) of Smad3 in a yeast two-hybrid screening, we isolated a novel splice variant of CAATT-binding factor subunit C (CBF-C), designated CBF-Cb, that associated with Smad3. CBF-C is one of the subunits that form a heterotrimeric CBF complex capable of binding and activating the CAATT motif found in the promoters of many eukaryotic genes. CBF-Cb is 62 amino acids shorter than the wild-type CBF-C in the N-terminal region. In addition, CBF-Cb is expressed ubiquitously in various mouse tissues. By an immunoprecipitation assay, we detected an in vivo association of CBF-Cb with Smad2 and Smad3, independent of signalling by activated TGF-β type I receptors. In transient transfection experiments, overexpression of CBF-Cb was able to repress the transactivating activity of Smad2 and Smad3, mediated either by direct binding to the Smad-responsive element or through their association with the Smad-interacting transcription factor FAST-2 (forkhead activin signal transducer-2). The Smad-mediated transcriptional response after TGF-β receptor activation was also inhibited by overexpression of unspliced CBF-C. In addition, the repressive activity of CBF-Cb on Smad2- and Smad3-mediated transcriptional regulation was abrogated by co-expression of the general transcription activator p300. The association of CBF-Cb with Smad2 was competitively inhibited by overexpression of p300. These data indicate a novel mechanism for modulation of the transcriptional activity of Smad proteins, whereby the interaction of CBF-Cb, as well as canonical CBF-C, with the MH2 domain of Smads may prevent the association of Smads with transcriptional co-activators.
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Xin, Baozhong, Zhimin He, Xinhai Yang, Ching-Ping Chan, Mun-Hon Ng i Liang Cao. "TRADD Domain of Epstein-Barr Virus Transforming Protein LMP1 Is Essential for Inducing Immortalization and Suppressing Senescence of Primary Rodent Fibroblasts". Journal of Virology 75, nr 6 (15.03.2001): 3010–15. http://dx.doi.org/10.1128/jvi.75.6.3010-3015.2001.
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ABSTRACT Mutation analysis of latent membrane protein 1 (LMP1) in Epstein-Barr virus (EBV)-induced B-cell immortalization revealed two transformation effector sites, TES1 and TES2. TES2 mediates the interaction with tumor necrosis factor receptor-associated death domain protein (TRADD) and plays a key role in transactivating NF-κB and AP-1. Recombinant EBV containing LMP1 with TES2 deleted induces a limited proliferation of B cells. The present study shows that a mutant with an LMP1 site-specific mutation at TES2, LMP1TRADD, initially stimulates cell growth and significantly extends the life span of MEF. However, it is not sufficient for the immortalization of MEF, and MEF-LMP1TRADD cells eventually enter growth arrest. Further analysis reveals that although LMP1TRADDpromotes cell growth, it does not prevent the eventual onset of senescence and the expression of tumor suppressor p16Ink4a.
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Hussain, Mehboob A., i Joel F. Habener. "Glucagon-like Peptide 1 Increases Glucose-Dependent Activity of the Homeoprotein IDX-1 Transactivating Domain in Pancreatic β-Cells". Biochemical and Biophysical Research Communications 274, nr 3 (sierpień 2000): 616–19. http://dx.doi.org/10.1006/bbrc.2000.3198.
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