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

The E2 transcriptional activator encoded by papillomaviruses binds as a dimer to the palindromic sequence ACCGNNNNCGGT present in several copies in the viral genomes. We show that strong activation requires that a minimum of two E2 binding sites are actually occupied by the protein. Studies with constructs bearing two E2 sites separated by variable lengths of DNA showed that there is no stereospecific constraint for E2 homosynergy. The capacity of E2 to cooperate with cellular factors interacting with the promoter/enhancer sequences of the genomes of human papilloma virus types 16, 18, or 33 was further investigated. In epithelial cells, one E2 dimer could not cooperate with the AP1 complex, the glucocorticoid receptor, or the NF1/K factor, whereas several E2 dimers could. These results lead to the notion of the "functional E2 tetramer" as the unit for strong transcriptional activation by E2 and for cooperativity with other cellular factors in this process. Finally, our results suggest that activators such as E2 or the glucocorticoid receptor may interact with partially different targets in the transcriptional machinery.
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PMID:Two DNA-bound E2 dimers are required for strong transcriptional activation and for cooperation with cellular factors in most cells. 165 9

THE products of the cellular and retroviral fos genes associate with other nuclear proteins, among them the transcription factor AP1/Jun (see ref. 3 for a review). The Fos/Jun complex binds to a specific symmetrical DNA recognition sequence (termed TRE), thus stimulating transcription of the respective gene. Here, we show that two distinct regions in Fos are required for the formation of a Fos/Jun/TRE complex. These are the leucine zipper, involved in the association with Jun, and a directly adjacent basic region. Specific amino-acid substitutions in this basic, presumably alpha-helical, region abolish the interaction of Fos/Jun with the TRE but not the association of the two proteins. The functionally crucial amino acids are located in a region of Fos which is structurally similar to the putative DNA-binding sites in Jun and in the yeast transcriptional activator GCN4 (refs 15 and 16).
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PMID:Two functionally different regions in Fos are required for the sequence-specific DNA interaction of the Fos/Jun protein complex. 249 59

The human ATF and AP1 transcription factors bind to highly related DNA sequences. Their consensus binding sites differ by a single nucleotide, but this single change is crucial in determining factor binding specificity. We have previously identified an AP1 (yAP1) binding activity in yeast. In this report we identify a yeast ATF (yATF) binding activity whose specificity can be distinguished from that of yAP1 by the same crucial nucleotide that distinguishes binding of human ATF and AP1. The ATF binding site can act as an efficient upstream activating sequence in vivo, suggesting that yATF is a transcriptional activator. The yATF DNA-binding complex is phosphorylated and the binding activity of partially purified yATF can be enhanced in vitro by the addition of protein kinase A, indicating that the phosphorylation state of yATF may be important in determining its ability to bind DNA.
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PMID:Mammalian cAMP-responsive element can activate transcription in yeast and binds a yeast factor(s) that resembles the mammalian transcription factor ANF. 253 34

The relationship between growth signals and transcriptional activator proteins was studied using polyomavirus enhancer as a probe. Transiently expressed Ha-ras gene and a tumor promoting phorbol ester, TPA, strongly stimulated the activity of polyomavirus enhancer in NIH3T3 cells. In both cases, the target of this stimulation was a 24 base pair long A core. At least two nuclear factors, PEBP1 and 2, bind to this core region. The target of stimulation in both cases was the recognition sequence of PEBP1 which is an AP1 consensus sequence. In nuclear extract of NIH3T3 cells stably transformed by Ha-ras gene, however, binding of neither PEBP1 nor PEBP2 was detected. Instead a new factor, PEBP3, emerged to share the binding site with PEBP2. PEBP3 was purified and found to be composed of 2 subunits, alpha and beta. Each of these subunits binds to the same sequence as that of PEBP3. PEBP3 binds to B core, as well as to A core. Preliminary evidence suggests that PEBP2 has an unidentified subunit in addition to alpha and beta. Proper phosphorylation required for PEBP1 for DNA binding and PEBP2 converts to PEBP3 in under-phosphorylation conditions. A repressor, PEBP4, has been identified which partly shares the recognition sequence with PEBP2. This factor is present in F9 embryonal carcinoma cells as well as in those induced to differentiate. On the other hand, neither PEBP1 nor PEBP2 were detected in F9 cells. Both of them became detectable after differentiation. Based on these results, a hypothesis was proposed for developmental regulation and alteration of such regulation in cancer cells.
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PMID:[Signals and transcription factors]. 253 80

The recently isolated v-jun oncogene encodes a protein with sequence homology to the transcription factor AP1, as well as a similar DNA binding specificity. We show, by expressing v-jun in F9 embryocarcinoma cells, that v-jun is also a transcriptional activator. However, v-jun expression does not activate transcription in several other cell-lines, suggesting that cell-specific factors are required for v-jun activity.
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PMID:v-jun is a transcriptional activator, but not in all cell-lines. 283 49

To gain insight into the regulatory mechanisms of collagen VI synthesis we have characterized the cis-acting elements of the chicken alpha 1(VI) collagen promoter. Footprinting experiments with nuclear extracts from chicken embryos revealed three distinct elements, designated A, B, and C, that were protected from DNase I digestion. The nuclear proteins that interact with the three sites were identified by gel retardation assays in combination with the use of various oligonucleotide competitors as well as specific antibodies raised against well characterized transcription factors. Site A was found to be a target for transcriptional activator AP1, whereas sites B and C were shown to be recognized each by two distinct nuclear proteins which belong to the Sp1 multigene family. To address the question whether the three sites alone are able to direct transcription, a minipromoter construct was created in which the sequences of sites A, B, and C were placed in front of a reporter gene. After transfection into chicken fibroblasts, this construct exhibited a high relative promoter activity when compared to a large genomic fragment containing the basic alpha 1(VI) collagen promoter. Thus, the three sites are sufficient to induce transcription of this gene.
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PMID:Identification of functional elements and reconstitution of the alpha 1(VI) collagen promoter. 827 16

The simian virus 40 large T antigen is a promiscuous transcriptional activator of many viral and cellular promoters. We show that the promoter structure necessary for T antigen-mediated transcriptional activation is very simple. A TATA or initiator element is required, in addition to an upstream factor-binding site, which can be quite variable. We found that promoters containing an SP1-, ATF-, AP1-, or TEF-I-binding site, in conjunction with a TATA element, can all be activated in the presence of T antigen. In addition, preference for specific TATA elements was indicated. Promoters containing the HSP70 TATA element functioned better than those with the adenovirus E2 TATA element, while promoters containing the simian virus 40 (SV40) early TATA element failed to be activated. In addition, simple promoters containing the initiator element from the terminal deoxynucleotidyltransferase gene could be activated by T antigen. The SV40 late promoter, a primary target for T antigen transcriptional activation, conforms to this simple promoter structure. The region from which most late transcripts initiate contains a cluster of initiator-like elements (SV40 nucleotides [nt] 250 to 335) forming an initiator region (IR). This lies downstream of the previously described octamer-TEF element (SV40 nt 199 to 218) which contains the TEF-I-binding sites shown to be necessary for T antigen-mediated transcriptional activation of the late promoter. We show that a simple late promoter made up of IR sequences and octamer-TEF element-containing sequences is transcriptionally activated by T antigen. These experiments also showed that specific sequences in the IR, SV40 nt 272 to 294, are particularly important for late promoter activation. Previous findings (M. C. Gruda, J. M. Zablotny, J. H. Xiao, I. Davidson, and J. C. Alwine, Mol. Cell. Biol. 13:961-969, 1993) suggested that T antigen could mediate transcriptional activation through interaction with the TATA-binding protein, as well as upstream bound transcription factors. Our present data are predicted by this model and suggest that at least one mechanism by which the T antigen manifests promiscuous transcriptional activation is its ability to interact with numerous transcription factors in a simple promoter context.
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PMID:Transcriptional activation by simian virus 40 large T antigen: requirements for simple promoter structures containing either TATA or initiator elements with variable upstream factor binding sites. 841 70

Osteoblasts are differentiated cells that produce bone matrix components including the bone-specific protein osteocalcin. The osteocalcin gene promoter has become a model for understanding how genes are regulated, specifically in osteoblasts. One model for cell-specific regulation suggests that osteoblast-expressed genes are regulated through common promoter sequences which bind osteoblast-specific transcriptional activators. The phenotype suppression model suggests osteoblast-specific promoters are switched off through the action of the common transcriptional activator AP1. We previously demonstrated that a short sequence element (OSCARE-2) in the osteocalcin promoter was homologous to a repressive element in the collagen type 1 (alpha 1) promoters. In this paper we use electrophoretic mobility shift (EMS) assays to examine DNA-protein interactions in the OSCARE-2 sequence. In EMS assays, OSCARE-2 binds a complex of proteins, including AP1. This supports the role of AP1 sites in contributing to the regulation of the osteocalcin promoter. Exogenous c-JUN protein bound to OSCARE-2 and increasing c-JUN incubated with nuclear extract amounts caused a progressive increase in a higher-molecular-weight complex, consistent with c-JUN involvement in protein-protein as well as DNA-protein interactions. Anti-c-FOS antibody was capable of supershifting OSCARE-2 DNA-protein complexes produced using osteoblast-like cell nuclear extracts. In addition, EMS assays of nuclear proteins from osteoblast-like cells indicated that 1,25 (OH)2D3-inducible proteins are bound to OSCARE-2. Osteocalcin promoter constructs showed that OSCARE-2 contributed to the 1,25 (OH)2D3 response, albeit in a minor way. These data support the role of AP1 protein as a regulator of osteoblast-specific gene expression during osteoblast development.
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PMID:Identification of an osteocalcin gene promoter sequence that binds AP1. 870 85

The coordinated cellular responses to physiological stress are known to be effected in part by the activation of heat-shock factor 1, a transcriptional activator protein capable of binding to, and inducing transcription from genes containing heat shock elements. Other stress responsive signal transduction pathways also exist including the stress activated protein kinase cascade that regulates the activity of the transcription factor AP1. We have examined the expression of the low molecular stress proteins, heat shock protein 27 and alpha B-crystallin in astrocytes in response to physiological stress of different types and asked what component of this induction is effected at the transcriptional level and whether activation of heat shock factor 1 and AP1 might account for these events. We have found that stress regulated induction of alpha B-crystallin has a strong transcriptional component and that it may be effected by at least two different transcriptional mechanisms. In one set of phenomena, represented here by cadmium exposure, alpha B-crystallin and heat shock protein 27 are coordinately regulated and this occurs in the presence of activated heat shock factor 1. In the second series of phenomena, represented here by hypertonic stress, alpha B-crystallin is induced in the absence of heat shock factor activation and in the absence of any corresponding change in heat shock protein 27 expression. Although hypertonic stress does activate an AP1-like binding activity, the AP1 consensus binding site in the alpha B-crystallin promoter does not appear to be a target for this hypertonic stress inducible activity. These data suggest that the hypertonic stress response is effected through a heat shock factor independent mechanism and that hypertonic stress regulated induction of alpha B-crystallin does not directly depend on the SAPK pathway and AP1 activity.
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PMID:Transcription regulation of alpha B-crystallin in astrocytes: analysis of HSF and AP1 activation by different types of physiological stress. 874 50

AP1 is a heterodimeric complex containing products of the Jun and Fos oncogene families. The c-fos and c-jun protooncogenes act as transcriptional activator for numerous cellular genes, and the overexpression of these genes may cause malignant transformation. In this study, to show evidence of a possible inhibition of AP1 transcriptional activity in molecular mechanisms of foodborne molecules, known to be negative modulators of carcinogenesis, we established two rat liver epithelial (REL) cell lines overexpressing either c-fos (43C line) or c-jun (RELcJ1 line) oncoproteins. Contrary to the 43C line, which was spontaneously transformed, the c-jun-transfected REL cells were only transformed in vitro after 12-O-tetra-decanoylphorbol 13-acetate (TPA) exposure. All trans-retinoic acid (RA) abolished the transformation of the 43C line and TPA-treated RELcJ1 cells, suggesting that RA could decrease AP1 activity in these cells despite c-fos or c-jun overexpression. Furthermore, we show for the first time that a flavonoid, quercetin, which is a natural component of vegetables, inhibited only the transformation of the 43C line. The spontaneous transformation of the c-fos-transfected REL cells was associated with the appearance of c-fos/AP1 complexes binding TRE, suggesting that c-fos/AP1 complexes are involved in the antitransforming mechanism of quercetin.
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PMID:Suppression of oncogene-induced transformation by quercetin and retinoic acid in rat liver epithelial cells. 877 34


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