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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
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
When expressed in Epstein-Barr virus (EBV) latently infected B cells, the EBV early protein EB1 trans-activates as many EBV early genes as does
TPA
. Several EB1 responsive elements (ZRE) have been identified in EBV early promoters and are located at relatively short distances from the TATA box. One of them (ZRE-M) overlaps with a consensus
TPA
responsive element (TRE) defined as an AP-1/c-jun/c-fos binding site and is located in an EBV promoter controlling the expression of the post-
transcriptional activator
EB2. Another (ZREZ) is located in the promoter controlling the expression of EB1 and does not respond to
TPA
. These two ZREs have no apparent sequence homology. Although EB1 activates transcription from the AP-1 enhancer sequence and from the ZREZ, the activation is severely impaired by distance, suggesting that EB1 is more likely to be a promoter factor than an enhancer factor. These properties also suggest that EB1 is not functionally related to c-jun and c-fos. However, since EB1 can activate transcription from AP-1 binding sites when properly positioned, the role of this factor in the oncogenic properties of EBV should be considered.
...
PMID:The Epstein-Barr virus early protein EB1 activates transcription from different responsive elements including AP-1 binding sites. 254 44
Monoblasts transformed by v-Myb can be induced to differentiate into macrophages by treatment with phorbol ester (
TPA
). This differentiation occurs during both the G1 and the G2 phases of the cell cycle and is accompanied by cell cycle arrest. The introduction of a protein consisting of the three repeats (3R) of the c-Myb DNA-binding domain permits the by-pass of this phorbol ester-induced differentiation and cell cycle arrest. In particular, monoblasts which express the 3R protein progress through both the G1/S and G2/M transitions in the presence of phorbol ester. However, the 3R protein contains no detectable transcriptional activation domain. These results demonstrate that the c-Myb DNA-binding domain can regulate the cell cycle without functioning as a direct
transcriptional activator
.
...
PMID:By-pass of TPA-induced differentiation and cell cycle arrest by the c-Myb DNA-binding domain. 765 37
The SCL gene (also called Tal-1 or TCL5) was identified because of its association with chromosomal translocations in childhood T-cell lymphoid leukemias. SCL codes for a basic helix-loop-helix (bHLH) factor that can function as a
transcriptional activator
or repressor. In the adult, SCL expression is restricted to hematopoietic cells and tissues, but its function in the process of lineage commitment is unknown. The present study was designed to address the role of SCL in hematopoietic cell differentiation. SCL expression was determined in primary hematopoietic cells through the screening of cDNA samples obtained by reverse transcription-polymerase chain reaction (RT-PCR) from single cells at different stages of differentiation. SCL RNA expression was highest in bipotential and committed erythroid precursors and diminished with subsequent maturation to proerythroblasts and normoblasts. In contrast, SCL mRNA was low to undetectable in precursors of granulocytes and monocytes and their maturing progeny. The same pattern of expression was observed after erythroid or monocytic differentiation of a bipotent cell line, TF-1, in that SCL mRNA levels remained elevated during erythroid differentiation and were downregulated with monocytic differentiation. Accordingly, TF-1 was chosen as a model to investigate the functional significance of this divergent pattern of SCL expression in the two lineages. Four independent clones stably transfected with an SCL expression vector exhibited enhanced spontaneous and delta-aminolevulinic acid-induced erythroid differentiation as measured by glycophorin expression and hemoglobinization, consistent with the view that SCL is a positive regulator of erythroid differentiation. Furthermore, constitutive SCL expression interfered with monocytic differentiation, as assessed by the generation of adherent cells and the expression of Fc gamma RII in response to
TPA
. These results suggest that the downregulation of SCL may be required for monocytic differentiation.
...
PMID:Opposing effects of the basic helix-loop-helix transcription factor SCL on erythroid and monocytic differentiation. 854 31
The lytic cycle of Epstein-Barr virus (EBV) can be activated by transfection of the gene for ZEBRA, a viral basic-zipper (bZip)
transcriptional activator
. ZEBRA and cellular AP-1 bZip activators, such as c-Fos, have homologous DNA-binding domains, and their DNA-binding specificities overlap. Moreover, EBV latency can also be disrupted by phorbol esters, which act, in part, through AP-1 activators. It is not known whether ZEBRA and AP-1 factors play equivalent roles in the initial stages of reactivation. Here the contribution of ZEBRA's basic DNA recognition domain to disruption of latency was analyzed by comparing ZEBRA with chimeric mutants in which the DNA recognition domain of ZEBRA was replaced with the analogous domain of c-Fos. Chimeric ZEBRA/c-Fos proteins overexpressed in Escherichia coli bound DNA with the specificity of c-Fos; they bound a heptamer AP-1 site and an octamer
TPA
response element (TRE). ZEBRA bound the AP-1 site and an array of ZEBRA response elements (ZREs). In assays with reporter genes, both ZEBRA and ZEBRA/c-Fos chimeric mutants activated transcription from Zp, a promoter of the ZEBRA gene (BZLF1) that contains the TRE and multiple ZREs. However, despite their capacity to activate reporters bearing Zp, neither ZEBRA nor the c-Fos chimeras activated transcription from Zp in the context of the intact latent viral genome. In contrast, ZEBRA but not ZEBRA/c-Fos chimeras activated Rp, a second viral promoter that controls ZEBRA expression. Hence, transcriptional autostimulation by transfected ZEBRA occurred preferentially at Rp. Both ZEBRA and the ZEBRA/c-Fos chimeras activated transcription from reporters with multimerized AP-1 sites. However, in the context of the virus, only ZEBRA activated the promoters of two early lytic cycle genes, BMRF1 and BMLF1, that contain an AP-1 site. Thus, overexpression of an activator that recognized AP-1 and TRE sites was not sufficient to activate EBV early lytic cycle genes.
...
PMID:Comparing transcriptional activation and autostimulation by ZEBRA and ZEBRA/c-Fos chimeras. 862 67
The v-Myb DNA-binding domain differs from that of c-Myb mainly by deletion of the first of three repeats. This truncation correlates with efficient oncogenic transformation and a decrease in DNA-binding activity. Here we demonstrate that the D-type cyclins, cyclin D1 and D2 in particular, specifically inhibit transcription when activated through the v-Myb DNA-binding domain, but not the c-Myb DNA-binding domain. Analysis of a cyclin D1 mutant and a dominant-negative CDK4 mutant implied that this repression is independent of complex formation with a CDK partner. Association of cyclin D1 and D2 with the Myb DNA-binding domain could be demonstrated. Increased levels of cyclin D1 and D2 resulted in a stabilization of the Myb proteins, but not in an alteration in binding of the Myb proteins to DNA. These results highlight an unexpected role for cyclin D as a CDK-independent repressor of transcriptional activation by v-Myb but not c-Myb. This differential effect of D-type cyclins on v-Myb and c-Myb might help to explain the mechanism underlying the oncogenic activity of v-Myb, which appears to be a stronger
transcriptional activator
following the
TPA
-induced differentiation of transformed monoblasts when cyclin D1 and D2 are down-regulated.
...
PMID:D-type cyclins repress transcriptional activation by the v-Myb but not the c-Myb DNA-binding domain. 942 59
That mammalian DNA polymerase-beta (beta-pol) gene transcription is upregulated by activated ras and also by phorbol ester (
TPA
) treatment suggests the involvement of protein kinase C in the gene expression control for this DNA repair enzyme. Yet, the core promoters of the human, bovine and rodent beta-pol genes do not have a
TPA
response element or other binding site for the
transcriptional activator
AP-1. Instead, these beta-pol promoters appear to be regulated mainly by proteins binding to the cAMP response element (CRE) centered within 50 bp 5' of the transcriptional start site. In this study, the CRE in the human beta-pol promoter was found to mediate
TPA
upregulation of the cloned promoter in HeLa cell transient expression experiments. To further examine the role of this CRE in
TPA
stimulation, we used several mutated promoters that were either deficient in protein binding to the CRE or contained extra CRE sites arranged as tandem repeats. All constructs with at least one functional CRE were upregulated by
TPA
, whereas mutants lacking CRE protein-binding function were not
TPA
upregulated. Analyses of HeLa nuclear extract DNA-binding proteins indicated that the beta-pol CRE was bound by CRE-binding protein (CREB) family members CREB-1 and activating transcription factor-1, but not by AP-1 or complexes containg AP-1 subunits. These results suggest that CREB, rather than AP-1 proteins, are required for the CRE-mediated
TPA
activation of the beta-pol promoter.
...
PMID:Human DNA Polymerase-beta Promoter: Phorbol Ester Activation Is Mediated through the cAMP Response Element and cAMP-Response-Element-Binding Protein. 1238 74
