UNIPROT:P51532 - FACTA Search

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

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

The E26 avian leukemia virus encodes a transcriptional activator-type oncoprotein consisting of Gag, Myb, and Ets domains, and transforms early erythroid cells as well as myeloblasts. Surprisingly, we have found that "early erythroid" transformants obtained in culture are multipotent, since they can be induced to differentiate into myeloblasts and eosinophils after superinfection with retroviruses containing kinase-type or ras oncogenes. In addition, TPA is an efficient inducer that generates predominantly eosinophils at low concentrations and myeloblasts at high concentrations. The determination process involves the complete extinction of erythroid/thrombocytic markers and the subsequent activation of myelomonocytic/eosinophilic properties, including the acquisition of specific growth factor requirements. "Erythroleukemic" cells from virus-infected animals were likewise found to be multipotent, making this a unique system to study the genesis of stem cell leukemias and the molecular basis of lineage commitment during hematopoiesis.
...
PMID:Chicken "erythroid" cells transformed by the Gag-Myb-Ets-encoding E26 leukemia virus are multipotent. 132 47

Recent efforts have been directed at identifying and characterizing candidate tumor suppressor genes and the activities of oncogenes in primary brain tumors. The p53 gene mapping to region p13 of chromosome 17 has several characteristics as a tumor suppressor gene. The wild-type p53 protein, which is a transcriptional activator, may serve as a barrier to the progression of neoplastic processes, and alterations of p53 are involved in genesis of various cancers including astrocytomas. The NF1 gene, which is responsible for the susceptibility to neurofibromatosis type 1, has recently been isolated. This gene is assumed to play a role in the signal transduction pathway by interacting with the ras gene product. Recent observation revealed that the NF1 gene may regulate the neuronal differentiation, and the alteration in regulation of the NF1 transcript is potentially related to the progression of neuroectodermal tumors. Restriction fragment length polymorphism studies have also shown chromosomal losses associated with chromosome 9, 10 and 17. These losses of genetic material are suspected to involve loci near or at the p53 gene for chromosome 17, and neighboring the interferon genes on chromosome 9. Although no sublocalization of chromosome 10 deletions has been accomplished, all of these loci are thought to harbor tumor suppressor genes. Recent advances in oncogene research have focused on understanding the mechanisms of action of growth factors, growth factor receptors, and their substrates, particularly in glial oncogenesis. Fibroblast growth factor, epidermal growth factor, and their respective receptors are of particular interest. However, the ROS oncogene, which is expressed and rearranged in some glioma cell lines, may not be a critical factor in the development of gliomas.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Pathways of oncogenesis in primary brain tumors. 190

The product of the c-myc proto-oncogene is a nuclear phosphoprotein whose normal cellular function has not yet been defined. c-Myc has a number of biochemical properties, however, that suggest that it may function as a potential regulator of gene transcription. Specifically, it is a nuclear DNA-binding protein with a short half-life, a high proline content, segments that are rich in glutamine and acidic residues, and a carboxyl-terminal oligomerization domain containing the leucine zipper and helix-loop-helix motifs that serve as oligomerization domains in known regulators of transcription, such as C/EBP, Jun, Fos, GCN4, MyoD, E12, and E47. In an effort to establish that c-Myc might regulate transcription in vivo, we sought to determine whether regions of the c-Myc protein could activate transcription in an in vitro system. We report here that fusion proteins in which segments of human c-Myc are linked to the DNA-binding domain of the yeast transcriptional activator GAL4 can activate transcription from a reporter gene linked to GAL4-binding sites. Three independent activation regions are located between amino acids 1 and 143, a region that has been shown to be required for neoplastic transformation of primary rat embryo cells in cooperation with a mutated ras gene. These results demonstrate that domains of the c-Myc protein can function to regulate transcription in a model system and suggest that alterations of Myc transcriptional regulatory function may lead to neoplastic transformation.
...
PMID:An amino-terminal c-myc domain required for neoplastic transformation activates transcription. 223 23

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.
...
PMID:[Signals and transcription factors]. 253 80

The p53 tumor suppressor protein is a transcriptional activator, which can mediate apoptotic cell death in a variety of cell types. To determine whether sequence-specific trans-activation is a prerequisite for the induction of apoptosis by p53, the apoptotic effects of various p53 deletion mutants were monitored in an assay based on the transient transfection of HeLa cells. A truncated protein (p53dl214), containing only the first 214 amino-terminal residues of murine p53, induced extensive apoptosis, albeit at a slower rate than trans-activation-competent wild-type p53. p53dl214 also suppressed the transformation of rat fibroblasts by several oncogene combinations and particularly by myc plus ras and HPV E7 plus ras. p53dl214 lacks a major portion of the DNA-binding domain and cannot activate p53-responsive promoters. Moreover, a human p53 protein carrying mutations in residues 22 and 23 also triggered HeLa cell apoptosis, despite failing to induce significant activation of relevant p53 target promoters. These data suggest the existence of two p53-dependent apoptotic pathways--one requiring activation of specific target genes, and the other independent of sequence-specific trans-activation. The latter pathway may actually be totally uncoupled from the binding of p53 to its consensus DNA sites. The relative contribution of trans-activation-independent apoptosis to tumor suppression by p53 may be dictated by the specific genetic lesions present in the particular tumor.
...
PMID:Induction of apoptosis in HeLa cells by trans-activation-deficient p53. 765 68

The transcriptional activator interferon regulatory factor 1 (IRF-1) and its antagonistic repressor IRF-2 are regulators of the interferon (IFN) system and of cell growth. Here we report that embryonic fibroblasts (EFs) from mice with a null mutation in the IRF-1 gene (IRF-1-/- mice) can be transformed by expression of an activated c-Ha-ras oncogene. This property is not observed in EFs from wild-type or IRF-2-/- mice but is still observed in EFs from mice deficient in both genes. The transformed phenotype of ras-expressing IRF-1-/- EFs could be suppressed by the expression of the IRF-1 cDNA. Thus, IRF-1 functions as a tumor suppressor. Furthermore, expression of the c-Ha-ras oncogene causes wild-type but not IRF-1-/- EFs to undergo apoptosis when combined with a block to cell proliferation or treated by anticancer drugs or ionizing radiation. Hence, IRF-1 may be a critical determinant of oncogene-induced cell transformation or apoptosis.
...
PMID:Cellular commitment to oncogene-induced transformation or apoptosis is dependent on the transcription factor IRF-1. 800 72

Expression of c-myc with constitutively active mutants of the ras gene results in the cooperative transformation of primary fibroblasts, although the precise mechanism by which these genes cooperate is unknown. Since c-Myc has been shown to function as a transcriptional activator, we have examined the ability of c-Myc and activated Ras (H-RasV-12) to cooperatively induce the promoter activity of cdc2, a gene which is critical for cell cycle progression. Microinjection of expression constructs encoding H-RasV-12 and c-Myc along with a cdc2 promoter-luciferase reporter plasmid into quiescent cells led to an increase in cdc2 promoter activity approximately 30 h after injection, a period which coincides with the S-to-G2/M transition in these cells. Expression of H-RasV-12 alone weakly activated the cdc2 promoter, while expression of c-Myc alone had no effect. Mutants of c-Myc lacking either the leucine zipper dimerization domain or the phosphoacceptor site Ser-62 could not cooperate with H-RasV-12 to induce the cdc2 promoter. These mutants also lacked the ability to cooperate with H-RasV-12 to stimulate DNA synthesis. Deletion analysis identified a distinct region of the cdc2 promoter which was required for c-Myc responsiveness. Taken together, these observations suggest a mechanistic link between the molecular activities of c-Myc and Ras and induction of the cell cycle regulator Cdc2.
...
PMID:c-Myc cooperates with activated Ras to induce the cdc2 promoter. 806 6

The amino terminus of the avian myelocytomatosis virus MC29 v-Myc oncoprotein contains sequences that are essential for cellular transformation (S. Farina, et al. J. Virol., 66: 2698-2708, 1992; S. Min and E. J. Taparowsky. Oncogene, 7:1531-1540, 1992) and for the ability to activate gene transcription (S. Min and E. J. Taparowsky. Oncogene, 7:1531-1540, 1992). To investigate the molecular interactions that mediate these v-Myc-associated activities, we performed competition assays in which various regions of the v-Myc amino terminal transcription activation domain (TAD) were examined for their ability to inhibit transcription activation by v-Myc, VP16, and the myogenic regulatory factor MyoD. Overexpression of these transcriptional activators also was used to investigate whether Myc-interacting proteins were required for cellular transformation and cell proliferation events. Our results demonstrate that at least two distinct cellular activities interact with the v-Myc TAD and that it is the synergism between these activities that is required for v-Myc to function fully as a transcriptional activator. In addition, v-Myc activators squelch VP16- and MyoD-dependent transcription activation, suggesting that the v-Myc TAD interacts with a component of the general transcription machinery. In support of this observation, we found that overexpression of the v-Myc TAD inhibits ras-mediated cellular transformation as well as cell proliferation, underscoring the critical role these amino terminal Myc-interacting factors play in regulating the physiology of both normal and transformed cells.
...
PMID:The transcription activation domains of v-Myc and VP16 interact with common factors required for cellular transformation and proliferation. 808 35

The transcriptional activator IFN regulatory factor 1 (IRF-1) and its antagonistic repressor IRF-2 are regulators of the IFN system. IRF-1 also manifests tumor suppressive activity, and its inactivation could contribute to the development of human hematopoietic malignancies. Here, we report the identification of the lysyl oxidase gene as a target gene of IRF-1. An IRF response element was identified in the lysyl oxidase gene promoter. We also demonstrate that the transformed phenotype of ras-expressing embryonic fibroblasts with a null mutation in the IRF-1 allele could be suppressed by the expression of the lysyl oxidase cDNA, implicating its potential role in tumor suppression. Thus, the regulation of the lysyl oxidase gene by IRF-1 could contribute to the multistep process of malignant transformation.
...
PMID:Identification of the lysyl oxidase gene as target of the antioncogenic transcription factor, IRF-1, and its possible role in tumor suppression. 862 21

HOX A genes are induced in a temporal fashion after retinoic acid (RA) treatment in non-N-ras-transformed PA-1 human teratcarcinoma cells. However, In N-ras-transformed PA-1 cells, RA-Induced expression of HOX A genes is delayed. The mRNA for the transcriptional activator AP-2 is overexpressed in these ras-transformed cells, but AP-2 transcriptional activity is inhibited relative to non ras-transformed PA-1 cells. Constitutive expression of AP-2 mimics the effect of ras by transforming cells and inhibiting differentiation in culture. We analyzed 4 kb of the human HOX A4 gene promoter and identified seven putative AP-2-binding sites in the DNA sequence. Transcription assays with variably sized HOX A4 promoter reporter constructs revealed that a 365 bp region of the promoter, -2950 to -3315 relative to the mRNA start, controls RA responsiveness and ras-mediated inhibition of HOX A4 activity. This region contains an AP-2 binding site and a RARE. Elimination of the AP-2 site by site-directed mutagenesis demonstrated that the AP-2 site is involved in RA-mediated transcriptional activation of the human HOX A4 promoter in combination with the RA receptor response element (RARE). In N-ras-transformed cells, low HOX A4 promoter activity results from ras inhibition of AP-2 transactivation.
...
PMID:Functional interaction between a RARE and an AP-2 binding site in the regulation of the human HOX A4 gene promoter. 875 21

1 2 3 Next >>