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

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

CBP (CREB-binding protein) is a transcriptional coactivator of CREB (cAMP response element-binding) protein, which is directly phosphorylated by PKA (cAMP-dependent protein kinase A). CBP interacts with the activated phosphorylated form of CREB but not with the nonphosphorylated form. We report here that CBP is also a coactivator of the c-myb proto-oncogene product (c-Myb), which is a sequence-specific transcriptional activator. CBP directly binds to the region containing the transcriptional activation domain of c-Myb in a phosphorylation-independent manner in vitro. The domain of CBP that touches c-Myb is also required for binding to CREB. A c-Myb/CBP complex in vivo was demonstrated by a yeast two-hybrid assay. CBP stimulates the c-Myb-dependent transcriptional activation. Conversely, the expression of antisense RNA of CBP represses c-Myb-induced transcriptional activation. In addition, adenovirus EIA, which binds to CBP, inhibits c-Myb-induced transcriptional activation. Our data thus identify CBP as a coactivator of c-Myb. These results suggest that CBP functions as a coactivator for more transcriptional activators than were thought previously.
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PMID:CBP as a transcriptional coactivator of c-Myb. 859 84

The tumor suppressor p53 plays a role in mediating a G1 arrest (for example, in response to DNA damage), in the cellular commitment to apoptosis and in suppression of transformation. The mechanism of action of p53 in each of these biological outcomes is likely to be overlapping. Current data indicate that p53 functions as a sequence specific transcriptional activator. p53 can also repress transcription from certain promoters. One way in which p53 mediates a G1 arrest after DNA damage appears to be clear. Cells exposed to ionizing radiation show elevated levels of p53 protein. The increase in p53 levels is thought to be responsible for the increase in the cyclin-dependent kinase (cdk) inhibitor p21 mediated through the p53 binding sites in the p21 promoter. With regard to the ability of p53 to suppress transformation, there is data suggesting that p53 functions other than, or in addition to, its transcriptional activation function may be necessary. Similar data exist for p53-dependent apoptosis. Recently a role for p53 at another level of gene regulation, namely, translational regulation has been proposed. p53 associates with various components of the translation machinery and has been implicated in the translational regulation of both the p53 and CDK4 mRNAs. Here we will summarize the evidence suggesting a role for p53 in translation and how this regulation might be achieved.
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PMID:p53 and translational control. 860 71

Efficient transcription and replication of the bovine leukemia virus (BLV) genome require both the viral long terminal repeat (LTR) and the virus-coded transcriptional activator Tax, which functions through a 21-bp sequence (Tax-responsive element [TxRE]) which is repeated three times within the LTR. Since Tax does not bind directly to DNA, host cell transcription factors play a central role in BLV expression. Electrophoretic mobility shift assays with nuclear extracts prepared with infected bovine B lymphocytes revealed five TxRE-specific complexes (C1, C2, C3, C4, and C5). Here, by using a UV-induced indirect labeling technique (UV cross-linking) in conjunction with mobility shift assays, eight major polypeptides of 31, 33, 42, 46, 51, 57, 87, and 119 kDa were identified within these five complexes. Immunoprecipitation experiments identified the 57- and 119-kDa proteins as cyclic AMP response element-binding (CREB) proteins, the 46- and 51-kDa proteins as activating transcription factor-1 (ATF-1), and the 87-kDa as protein ATF-2. All of these proteins (except the ATF-1 protein of 51 kDa) belong to the complex C1, which is the major complex identified in freshly isolated BLV-infected lymphocytes from cattle with persistent lymphocytosis. In transient-cotransfection experiments, these three transcription factors were able to activate LTR-directed gene expression in the presence of protein kinase A or Ca2+/calmodulin-dependent protein kinase IV. CREB protein, ATF-1, and ATF-2 thus appear to be the major transcription factors involved in the early stages of viral expression.
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PMID:The CREB, ATF-1, and ATF-2 transcription factors from bovine leukemia virus-infected B lymphocytes activate viral expression. 862 25

The SNF1 protein kinase has been widely conserved in plants and mammals. In Saccharomyces cerevisiae, SNF1 is essential for expression of glucose-repressed genes in response to glucose deprivation. Previous studies supported a role for SNF1 in relieving transcriptional repression. Here, we report evidence that SNF1 modulates function of a transcriptional activator, SIP4, which was identified in a two-hybrid screen for interaction with SNF1. The N terminus of the predicted 96-kDa SIP4 protein is homologous to the DNA-binding domain of the GAL4 family of transcriptional activators, with a C6 zinc cluster adjacent to a coiled-coil motif The C terminus contains a leucine zipper motif and an acidic region. When bound to DNA, a LexA-SIP4 fusion activates transcription of a reporter gene. Transcriptional activation by SIP4 is regulated by glucose and depends on the SNF1 protein kinase. Moreover, SIP4 is differentially phosphorylated in response to glucose availability, and phosphorylation requires SNF1. These findings suggest that the SNF1 kinase interacts with a transcriptional activator to modulate its activity and provide the first direct evidence for a role of SNF1 in activating transcription in response to glucose limitation.
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PMID:Yeast SNF1 protein kinase interacts with SIP4, a C6 zinc cluster transcriptional activator: a new role for SNF1 in the glucose response. 862 58

The transcription of meiosis-specific genes, as well as the initiation of meiosis, in the budding yeast Saccharomyces cerevisiae depends on IME1. IME1 encodes a transcriptional activator which lacks known DNA binding motifs. In this study we have determined the mode by which Ime1 specifically activates the transcription of meiotic genes. We demonstrate that Ime1 is recruited to the promoters of meiotic genes by interacting with a DNA-binding protein, Ume6. This association between Ime1 and Ume6 depends on both starvation and the activity of a protein kinase, encoded by RIM11 In the absence of Ime1, Ume6 represses the transcription of meiotic genes. However, in the presence of Ime1, or when Ume6 is fused in frame to the Gal4 activation domain, Ume6 is converted from a repressor to an activator, resulting in the transcription of meiosis-specific genes and the formation of asci.
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PMID:Induction of meiosis in Saccharomyces cerevisiae depends on conversion of the transcriptional represssor Ume6 to a positive regulator by its regulated association with the transcriptional activator Ime1. 862 20

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

NGFI-B is an immediate early gene and orphan member of the nuclear receptor superfamily. It is induced in several tissues, including brain, and in cultured cerebellar granule cells in response to different stimuli. Since both the induction of its mRNA as well as the level and function of its gene product are under the control of the inducing stimulus, we wanted to study the final outcome of the stimulus, i.e., transcriptional activity, by means of a specific, artificial reporter gene in cultured CNS cells. Cultured cerebellar granule cells and astrocytes were transfected with an NGFI-B responsive reporter gene to study the role of NGFI-B as a transcriptional activator after stimulation of the protein kinase A and C pathways. In both cell types, stimulation of either protein kinase A or C with forskolin (10 microM) or phorbol 12-myristate 13-acetate (0.1 microM), respectively, gave up to fivefold induction of the reporter gene. In the granule cells a combined treatment gave a strong synergistic induction of the reporter gene. The astrocytes showed only weak synergy, indicating cell-specific regulation of the target gene by the two kinases.
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PMID:Activation of a reporter gene responsive to NGFI-B in cultured neurons and astrocytes. 874 51

GABAB receptors affect short-term signalling in various cell types. However, nothing is known about possible long-term effects on transcription. To analyse such effects in the CNS, we studied GABAB receptor-mediated gene regulation in primary cultures of cerebellar granule neurons. Transcription was followed using a chloramphenicol acetyl transferase reporter gene driven by the minimal cyclic AMP-responsive element (TGACGTCA). Transcription was stimulated by activation of both the cyclic AMP (forskolin: 5 x 10(-6) M) and the Ca2+ dependent (KCl: 30 mM) pathways (-)-Baclofen (10(-6) M to 10(-4) M), a specific GABAB receptor agonist, reduced by 50-70% the transcriptional stimulation evoked by both forskolin and KCl, whereas isoguvacine, a GABAA receptor agonist, was without effect. Moreover, the GABAB antagonist CGP 35348 abrogated the inhibitory effects of both GABA and baclofen, indicating that GABAB receptors were specifically implicated in this response. Measurements of cyclic AMP levels suggested that (-) baclofen inhibits forskolin-initiated transcription by reducing cyclic AMP production. Direct transcriptional activation, via the cyclic AMP pathway, by overexpression of the catalytic subunit of the cyclic AMP-dependent protein kinase, was not significantly altered by (-) baclofen. This indicates again that (-) baclofen-dependent inhibitory mechanisms operate upstream of cyclic AMP-dependent protein kinase at the level of second messenger formation. Further, we used a yeast transcriptional activator GAL4-cyclic AMP-responsive element binding protein to analyse whether GABAB receptor-mediated inhibition of cyclic AMP-responsive element transcription implicated the transacting factor cyclic AMP-responsive element binding protein. We show that the negative effects of (-) baclofen implicate this transcription factor and this holds good for both the forskolin and KCl-stimulated pathways. The results indicate that GABAB receptors negatively regulate cyclic AMP-responsive element binding protein-mediated transcription in the CNS.
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PMID:GABAB receptors negatively regulate transcription in cerebellar granular neurons through cyclic AMP responsive element binding protein-dependent mechanisms. 884 50

Previously, we showed that the viral transactivator proteins E1A and VP16 specifically interact with a cellular CTD kinase activity in vitro. We now report that E1A and VP16 complexes contain human CDK8, a newly identified member of the cyclin-dependent kinase family that has been shown to be a component of the RNA polymerase II (RNAP II) holoenzyme complex. The presence of CDK8 in the E1A- and VP16-containing complexes is specific for a functional activation domain of these viral transactivators, strongly suggesting that this association is relevant for the transactivation function of E1A and VP16. We show that CDK8 is associated with CTD kinase activity and that CDK8 co-fractionates with E1A- and VP16-associated CTD kinase activity over several chromatography columns. Therefore, CDK8 is likely responsible for the E1A- and VP16-associated CTD kinase activity. Gel filtration chromatography indicates that the E1A- and VP16-associated CTD kinase activity has a molecular size of approximately 1.5 MDa and contains cyclin C and the human homolog of SRB7 in addition to CDK8. This implies that E1A and VP16 associate with the RNAP II holoenyzme. We also looked at the transcriptional activity of CDK8 and found that CDK8 can function as a transcriptional activator when fused to the DNA binding domain of GAL4. Surprisingly, the ability of GAL4-CDK8 to activate transcription in this assay was not dependent on the kinase activity of CDK8, since a kinase-deficient mutant of CDK8 stimulated transcription nearly as well as wild-type GAL4-CDK8. This suggests that CDK8 may play a role in transcription that is distinct from its ability to function as a CTD kinase.
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PMID:Viral transactivators E1A and VP16 interact with a large complex that is associated with CTD kinase activity and contains CDK8. 887 57

The 5'-AMP-activated protein kinase (AMPK) mediates several cellular responses to metabolic stress. Rat liver contains at least two isoforms of this enzyme, either alpha1 or alpha2 catalytic subunits together with beta and gamma noncatalytic subunits in a trimeric complex. The alpha1 isoform is purified using a peptide substrate affinity chromatography column with ADR1 (222-234)P229 (LKKLTRRPSFSAQ), corresponding to the cAMP-dependent protein kinase phosphorylation site in the yeast transcriptional activator of the ADH2 gene, ADR1. This peptide is phosphorylated at Ser230 by AMPK alpha1 with a Km of 3.8 microM and a Vmax of 4.8 micromol/min/mg compared to the commonly used rat acetyl-CoA carboxylase (73-87)A77R86-87 peptide substrate, HMRSAMSGLHLVKRR, with a Km of 33.3 microM and a Vmax of 8.1 micromol/min/mg. Thus, the AMPK exhibits some overlapping specificity with the cAMP-dependent protein kinase. The rat liver AMPK alpha1 isoform has a Kcat approximately 250-fold higher than the AMPK alpha2 isoform isolated from rat liver. The AMPK alpha1 isoform readily phosphorylates peptides corresponding to the reported AMPK phosphorylation sites in rat, chicken, and yeast acetyl-CoA carboxylase and rat hydroxymethylglutaryl-CoA reductase but not phosphorylase kinase. Based on previous peptide substrate specificity studies (Dale, S., Wilson, W. A., Edelman, A. M., and Hardie, G. (1995) FEBS Lett. 361, 191-195) using partially purified enzyme and variants of the peptide AMARAASAAALARRR, it was proposed that the AMPK preferred the phosphorylation site motif Phi(X, beta)XXS/TXXXPhi (Phi, hydrophobic; beta, basic). In good AMPK alpha1 peptide substrates, a hydrophobic residue at the P-5 position is conserved but not at the P+4 position. Oxidation of the Met residues in the rat acetyl-CoA carboxylase (73-87)A77R86-87 peptide increased the Km 6-fold and reduced the Vmax to 4% of the reduced peptide.
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PMID:Isoform-specific purification and substrate specificity of the 5'-AMP-activated protein kinase. 891 Apr 70


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