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)

The nonstructural protein NS1 of the autonomous parvovirus minute virus of mice (MVMp) is cytolytic when expressed in transformed cells. Before causing extensive cell lysis, NS1 induces a multistep cell cycle arrest in G(1), S, and G(2), well reproducing the arrest in S and G(2) observed upon MVMp infection. In this work we investigated the molecular mechanisms of growth inhibition mediated by NS1 and MVMp. We show that NS1-mediated cell cycle arrest correlates with the accumulation of the cyclin-dependent kinase (Cdk) inhibitor p21(cip1) associated with both the cyclin A/Cdk and cyclin E/Cdk2 complexes but in the absence of accumulation of p53, a potent transcriptional activator of p21(cip1). By comparison, MVMp infection induced the accumulation of both p53 and p21(cip1). We demonstrate that p53 plays an essential role in the MVMp-induced cell cycle arrest in both S and G(2) by using p53 wild-type (+/+) and null (-/-) cells. Furthermore, only the G(2) arrest was abrogated in p21(cip1) null (-/-) cells. Together these results show that the MVMp-induced cell cycle arrest in S is p53 dependent but p21(cip1) independent, whereas the arrest in G(2) depends on both p53 and its downstream effector p21(cip1). They also suggest that induction of p21(cip1) by the viral protein NS1 arrests cells in G(2) through inhibition of cyclin A-dependent kinase activity.
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PMID:NS1- and minute virus of mice-induced cell cycle arrest: involvement of p53 and p21(cip1). 1160 46

The p53 homolog p63 is a transcriptional activator. Here, we describe the identification of an HMG1-like protein SSRP1 as a co-activator of p63. Over expression of wild-type, but not deletion mutant, SSRP1 remarkably enhanced p63gamma-dependent luciferase activity, G1 arrest, apoptosis and expression of endogenous PIG3, p21(Waf1/cip1) and MDM2 in human p53-deficient lung carcinoma H1299 cells and mouse embryonic fibroblasts. Also, SSRP1 interacted to p63gamma in vitro and in cells, and resided with p63gamma at the p53-responsive DNA element sites of the cellular endogenous MDM2 and p21(Waf1/cip1) promoters. Moreover, N-terminus-deleted p63 (DeltaN-p63) bound to neither SSRP1 nor its central domain in vitro. Accordingly, SSRP1 was unable to stimulate DeltaN-p63-mediated residual luciferase activity and apoptosis in cells. Finally, the ectopic expression of the central p63-binding domain of SSRP1 inhibited p63-dependent transcription in cells. Thus, these results suggest that SSRP1 stimulates p63 activity by associating with this activator at the promoter.
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PMID:SSRP1 functions as a co-activator of the transcriptional activator p63. 1237 49

A recurrent translocation, t(3;6)(q27;p21), in non-Hodgkin's lymphoma results in fusion of BCL6 with a particular histone H4 gene on 6p21. We cloned five H4/BCL6 junctions from both der(3) and der(6) chromosomes. The breakpoints on H4 were distributed within the single exon or close to the terminal palindrome, and those on BCL6 were localized within or close to the translocation hypercluster. Deletions or duplications of variable numbers of nucleotides were identified at the junctions. A total of eight single nucleotide alterations were introduced into the translocation/mutation cluster of BCL6, whereas four single nucleotide substitutions were identified within a 360-bp region of H4. Thus, the somatic hypermutation mechanism is likely to target H4, resulting in a predisposition to the development of translocation with BCL6. Lymphoma cells carrying H4/BCL6 produced fusion transcripts containing both H4 and BCL6 messages; however, the cells expressed only moderate levels of BCL6 mRNA. We constructed expression plasmids that mimicked the H4/BCL6 fusion gene and transiently introduced them into COS-7 cells. H4/BCL6-transfected cells expressed markedly higher levels of Bcl-6 protein than cells transfected with a plasmid carrying BCL6 driven by its normal promoter and displayed bright nuclear staining with a characteristic punctate pattern with an anti-Bcl-6 antibody. Deletion analyses revealed that the high-level Bcl-6 expression was promoted by the H4 regulatory sequences. The levels of expression of activating transcription factor 3, prefoldin 4, and retinoblastoma-binding protein 7 significantly increased in accordance with that of BCL6, suggesting that Bcl-6 may act as a transcriptional activator. Our study suggested that t(3;6)(q27;p21) leads to BCL6 overexpression; however, the high-level BCL6 expression may not be required to maintain the malignant phenotype of lymphoma cells.
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PMID:Characterization of t(3;6)(q27;p21) breakpoints in B-cell non-Hodgkin's lymphoma and construction of the histone H4/BCL6 fusion gene, leading to altered expression of Bcl-6. 1241 51

The Epstein-Barr virus (EBV) immediate-early protein BZLF1 is a transcriptional activator that mediates the switch between the latent and the lytic forms of EBV infection. It was previously reported that BZLF1 inhibits p53 transcriptional function in reporter gene assays. Here we further examined the effects of BZLF1 on p53 function by using a BZLF1-expressing adenovirus vector (AdBZLF1). Infection of cells with the AdBZLF1 vector increased the level of cellular p53 but prevented the induction of p53-dependent cellular target genes, such as p21 and MDM2. BZLF1-expressing cells had increased p53-specific DNA binding activity in electrophoretic mobility shift assays, increased p53 phosphorylation at multiple residues (including serines 6, 9, 15, 33, 46, 315, and 392), and increased acetylation at lysine 320 and lysine 382. Thus, the inhibitory effects of BZLF1 on p53 transcriptional function cannot be explained by its effects on p53 phosphorylation, acetylation, or DNA binding activity. BZLF1 substantially reduced the level of cellular TATA binding protein (TBP) in both normal human fibroblasts and A549 cells, and the inhibitory effects of BZLF1 on p53 transcriptional function could be partially rescued by the overexpression of TBP. Thus, BZLF1 has numerous effects on p53 posttranslational modification but may inhibit p53 transcriptional function in part through an indirect mechanism involving the suppression of TBP expression.
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PMID:The Epstein-Barr virus immediate-early protein BZLF1 regulates p53 function through multiple mechanisms. 1243 76

Mirk/dyrk1B is an arginine-directed protein kinase, which functions as a transcriptional activator and mediates serum-free growth of colon carcinoma cells by an unknown mechanism. We now report that turnover of the cdk inhibitor p27(kip1) and the G(1)-phase cyclin cyclin D1 is enhanced in each of 4 Mirk stable transfectants compared to vector control transfectants and Mirk kinase-inactive mutant transfectants. This enhanced turnover is proteasome-dependent and leads to lower protein levels of both p27(kip1) and cyclin D1. Lower protein levels of the cdk inhibitor p21(cip1) were also observed in the 4 Mirk stable transfectants. Mirk did not alter the activity of a p27(kip1) promoter construct or p27(kip1) mRNA levels by stable expression, indicating that the decrease in p27(kip1) protein levels was due to a posttranscriptional mechanism. These data are consistent with mirk enhancing the expression of some component common to the proteolysis of both p27(kip1) and cyclin D1.
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PMID:Rapid turnover of cell-cycle regulators found in Mirk/dyrk1B transfectants. 1245 49

The tumor suppressor p53 is the most frequently mutated gene in human tumors. In response to DNA damage, aberrant growth signals, or chemotherapeutic drugs, p53 is stabilized and induces apoptosis and/or cell cycle arrest. While the mechanisms of p53-dependent apoptosis are not well understood, p53-dependent cycle arrest is primary mediated by the CDK inhibitor p21. p53 is a transcriptional activator and it is not surprising that a majority of p53 mutations occur in the core DNA binding domain and affect DNA binding and transactivation of p53 targets in tumors. We used the capability of p53 to activate transcription for developing a new assay that permits rapid determination of the status of p53 in cancer cell lines of different origin. Our strategy involved using a retrovirus containing a p53-regulated lacZ reporter gene that was introduced into colon and breast tumor cell lines to determine p53 status. Simple staining for beta-galactosidase allowed us to confirm that the colon cancer cell lines LIM1215 and HCT116, as well as the breast cancer cell line MCF7. have wild-type p53, and the colon cancer cell line Caco-2 as well as breast cancer cell lines MDA-MB-435 and MDA-MB-231 have mutant p53. This method may be applied to novel cell lines of any origin with unknown status of p53.
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PMID:A new method for determining the status of p53 in tumor cell lines of different origin. 1272 31

The transcription factors MyoD and Myf-5 control myoblast identity and differentiation. MyoD and Myf-5 manifest opposite cell cycle-specific expression patterns. Here, we provide evidence that MyoD plays a pivotal role at the G(2)/M transition by controlling the expression of p21(Waf1/Cip1) (p21), which is believed to regulate cyclin B-Cdc2 kinase activity in G(2). In growing myoblasts, MyoD reaccumulates during G(2) concomitantly with p21 before entry into mitosis; MyoD is phosphorylated on Ser5 and Ser200 by cyclin B-Cdc2, resulting in a decrease of its stability and down-regulation of both MyoD and p21. Inducible expression of a nonphosphorylable MyoD A5/A200 enhances the MyoD interaction with the coactivator P/CAF, thereby stimulating the transcriptional activation of a luciferase reporter gene placed under the control of the p21 promoter. MyoD A5/A200 causes sustained p21 expression, which inhibits cyclin B-Cdc2 kinase activity in G(2) and delays M-phase entry. This G(2) arrest is not observed in p21(-/-) cells. These results show that in cycling cells MyoD functions as a transcriptional activator of p21 and that MyoD phosphorylation is required for G(2)/M transition.
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PMID:Mutant MyoD lacking Cdc2 phosphorylation sites delays M-phase entry. 1474 95

Although radiation therapy has been an important modality for cancer treatment, the molecular mechanisms underlying the overall genomic response of mammalian cells to radiation are not well characterized. The success of radiation therapy using ionizing radiation relies upon the regulation of both the cell cycle and apoptosis, as conferred by the activation of DNA damage-responsive genes. To better understand the key players involved in this response, expression-profiling experiments were performed using custom-made cDNA microarrays. In MOLT-4 lymphoma tumor cells, the induction of target gene products following irradiation supports a major role for p53 as a transcriptional activator, but also invokes questions regarding conditional transcription regulation following irradiation. Using chromatin immunoprecipitation (ChIP), p53 binding to chromatin was examined following irradiation using primers that are specific for p53 binding sites in target genes. PCR analysis indicates dynamic target gene binding. Thus, at 8 hours following radiation treatment, the p21 and puma promoter sites were characterized by relative increases in chromatin precipitation, while the bax promoter site was not. Because the binding of p53 to these sites only changed modestly following radiation, other studies were conducted to characterize the presence of constitutive binding to putative p53 DNA binding sites in several other genes.
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PMID:p53 binding to target sites is dynamically regulated before and after ionizing radiation-mediated DNA damage. 1499 97

The Brn-3 family of POU (Pit-Oct-Unc) homeodomain transcription factors regulate differentiation of neuronal cell types. The transcriptional activator Brn-3a is expressed in Ewing's sarcomas, which also express characteristic chimaeric proteins as a consequence of fusion of the TET family gene EWS to one of several ETS genes. We have previously demonstrated a physical interaction between Brn-3a and EWS proteins, and show here that the C-terminal POU domain but not N-terminal activation domain of Brn-3a can interact in vitro with the RNA-binding domain of EWS. Likely due to POU domain homology, the related factor Brn-3b can also interact with EWS, but to a lesser extent than Brn-3a. Importantly, Brn-3a but not Brn-3b interacts in vitro with chimaeric EWS/Fli-1, EWS/ATF-1 and EWS/ERG proteins. Furthermore, overexpression of EWS/Fli-1 but not EWS or Fli-1 inhibits Brn-3a-associated growth arrest and neurite outgrowth in neuronal cells, and specifically inhibits Brn-3a-dependent activation of p21 and SNAP-25 transcription. In contrast, upregulation of Bcl-2 expression and inhibition of apoptosis by Brn-3a is antagonized more by EWS than by EWS/Fli-1. These data demonstrate that oncogenic rearrangement of EWS to produce EWS/Fli-1 may enhance the antiapoptotic effect of Brn-3a and inhibit its ability to promote neuronal differentiation.
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PMID:The effects of Brn-3a on neuronal differentiation and apoptosis are differentially modulated by EWS and its oncogenic derivative EWS/Fli-1. 1502 3

The CCAAT enhancer-binding protein (C/EBP) beta gene can produce several N-terminally truncated isoforms. Liver-enriched activator protein (LAP) is a transcriptional activator in many systems, whereas liver-enriched inhibitory protein (LIP) is regarded as a functional LAP antagonist. In this study, we examined the impact of these two proteins on cell cycle progression in the regenerating liver. Adenoviral overexpression of LAP, in addition to its role as a transactivator of liver-specific genes, led to a delayed S-phase entry of hepatocytes after partial hepatectomy (PH) in vivo. This delay was accompanied by decreased expression of cyclin A and E as well as proliferating cell nuclear antigen and decreased cyclin-dependent kinase 2 activity at the G1/S boundary. This observation is not explained by increased p21(CIP1/Waf1) expression or lack of phosphorylation of external LAP, but LAP overexpression triggered a decreased C/EBP-alpha/C/EBP-alpha-30 ratio and a reduced basal c-jun level in the liver. In contrast, adenoviral overexpression of LIP resulted in a stronger and earlier induction of cyclin A and E after PH, but did not change the timing and extent of cyclin-dependent kinase 2 activity or the amount of hepatocytes that entered S phase in this model. In the LIP expressing group, both C/EBP-alpha isoforms and c-jun were more strongly induced after PH. In conclusion, the LAP/LIP ratio is an important modulator of cell cycle progression during liver regeneration. In the context of previous studies, our results demonstrate that LAP, through a dose-dependent effect, withholds a dual activating and inhibiting role on hepatocyte proliferation in vivo.
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PMID:C/EBP beta isoforms LIP and LAP modulate progression of the cell cycle in the regenerating mouse liver. 1536 40


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