UNIPROT:Q02556 - FACTA Search

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Query: UNIPROT:Q02556 (DNA-binding domain)
6,431 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The t(3;21) (q26;q22) chromosomal translocation associated with blastic crisis of chronic myelogenous leukemia (CML) results in the formation of a chimeric protein fusing the amino-terminal DNA-binding domain encoded by the AML1 gene to the carboxyl-terminal-encoding portion of the Evi-1 gene. In order to evaluate transforming activity of this protein, AML1/Evi-1 was introduced into Rat1 fibroblasts. Cells expressing the fusion product formed macroscopic colonies in soft agar, indicating that AML1/Evi-1 is a transforming gene. It was also demonstrated that introduction of AML1/Evi-1 into the Rat1 clones harboring BCR/ABL also conferred enhanced capacity for anchorage independent growth. Analyses of deletion mutants of AML1/Evi-1 revealed that removal of the second zinc finger domain within the Evi-1 sequence totally abrogated the ability of AML1/Evi-1 to transform Rat1 cells. We showed that the transforming effect is correlated with the AP-1 activation induced by AML1/Evi-1. Furthermore, we demonstrated that c-jun is transcriptionally activated in Rat1 cells transformed by AML1/Evi-1, suggesting that c-jun expression is under control of AML1/Evi-1. These results indicate that the oncogenic effect of the t(3;21) translocation is caused by the generation of a chimeric transcriptional factor and that AML1/Evi-1 could perform a pivotal role in leukemic progression of CML.
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PMID:The AML1/Evi-1 fusion protein in the t(3;21) translocation exhibits transforming activity on Rat1 fibroblasts with dependence on the Evi-1 sequence. 767 44

The chromosomal translocation t(3;21)(q26;q22), which is found in blastic crisis in chronic myelogenous leukemias and myelodysplastic syndrome-derived leukemias, produces AML1/Evi-1 chimeric transcription factor and is thought to play important roles in acute leukemic transformation of hemopoietic stem cells. We report here the functional analyses of AML1/Evi-1. It was revealed that AML1/Evi-1 itself does not alter the transactivation level through mouse polyomavirus enhancer-binding protein 2 (PEBP2; PEA2) sites (binding site of AML1) but dominantly suppresses the transactivation by intact AML1, which is assumed to be a stimulator of myeloid cell differentiation. DNA-binding competition is a putative mechanism of such dominant negative effects of AML1/Evi-1 because it binds to PEBP2 sites with higher affinity than AML1 does. Furthermore, AML1/Evi-1 stimulated c-fos promoter transactivation and increased AP-1 activity, as Evi-1 (which is not normally expressed in hemopoietic cells) did. Experiments using deletion mutants of AML1/Evi-1 showed that these two functions are mutually independent because the dominant negative effects on intact AML1 and the stimulation of AP-1 activity are dependent on the runt domain (DNA-binding domain of AML1) and the zinc finger domain near the C terminus, respectively. Furthermore, we showed that AML1/Evi-1 blocks granulocytic differentiation, otherwise induced by granulocyte colony-stimulating factor, of 32Dcl3 myeloid cells. It was also suggested that both AML1-derived and Evi-1-derived portions of the fusion protein play crucial roles in this differentiation block. We conclude that the leukemic cell transformation in t(3;21) leukemias is probably caused by these dual functions of AML1/Evi-1 chimeric protein.
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PMID:Dual functions of the AML1/Evi-1 chimeric protein in the mechanism of leukemogenesis in t(3;21) leukemias. 773 22

The AML-1/CBF beta transcription factor complex is targeted by both the t(8;21) and the inv(16) chromosomal alterations, which are frequently observed in acute myelogenous leukemia. AML-1 is a site-specific DNA-binding protein that recognizes the enhancer core motif TGTGGT. The t(8;21) translocation fuses the first 177 amino acids of AML-1 to MTG8 (also known as ETO), generating a chimeric protein that retains the DNA-binding domain of AML-1. Analysis of endogenous AML-1 DNA-binding complexes suggested the presence of at least two AML-1 isoforms. Accordingly, we screened a human B-cell cDNA library and isolated a larger, potentially alternatively spliced, form of AML1, termed AML1B. AML-1B is a protein of 53 kDa that binds to a consensus AML-1-binding site and complexes with CBF beta. Subcellular fractionation experiments demonstrated that both AML-1 and AML-1/ETO are efficiently extracted from the nucleus under ionic conditions but that AML-1B is localized to a salt-resistant nuclear compartment. Analysis of the transcriptional activities of AML-1, AML-1B, and AML-1/ETO demonstrated that only AML-1B activates transcription from the T-cell receptor beta enhancer. Mixing experiments indicated that AML-1/ETO can efficiently block AML-1B-dependent transcriptional activation, suggesting that the t(8;21) translocation creates a dominant interfering protein.
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PMID:The t(8;21) fusion protein interferes with AML-1B-dependent transcriptional activation. 789 92

The myeloperoxidase (MPO) and neutrophil elastase genes are expressed specifically in immature myeloid cells. The integrity of a polyomavirus enhancer core sequence, 5'-AACCACA-3', is critical to the activity of the murine MPO proximal enhancer. This element binds two species, myeloid nuclear factors 1 alpha and 1 beta (MyNF1 alpha and -beta), present in 32D cl3 myeloid cell nuclear extracts. The levels of the MyNF1s increase during early 32D cl3 cell granulocytic differentiation. Both MyNF1 alpha and -beta supershift with an antiserum raised by using a peptide derived from the N terminus of polyomavirus enhancer-binding protein 2/core-binding factor (PEBP2/CBF) alpha subunit. The specific peptide inhibits these supershifts. In vitro-translated PEBP2/CBF DNA-binding domain binds the murine MPO PEBP2/CBF site. An alternate PEBP2/CBF consensus site, 5'-GACCGCA-3', but not a simian virus 40 enhancer core sequence, 5'-TTCCACA-3', binds the MyNF1s in vitro and activates a minimal murine MPO-thymidine kinase promoter in vivo. The murine neutrophil elastase gene 100-bp 5'-flanking sequences contain several functional elements, including potential binding sites for PU.1, C/EBP, c-Myb, and PEBP2/CBF. The functional element 5'-GGCCACA-3' located at positions -66 to 72 differs from the PEBP2/CBF consensus (5'-PuACCPuCA-3') only by an A-to-G transition at position 2. This DNA element binds MyNF1 alpha and -beta weakly. The N terminis of two PEBP2/CBF alpha subunit family members, PEBP2 alpha A and PEBP2 alpha B (murine AML1), are nearly identical, and 32D c13 cl3 cells contain both corresponding mRNAs. Since t(8;21), t(3;21), and inv(16), associated with myeloid leukemias, disrupt subunits of PEBP2/CBF, we speculate that the resulting oncoproteins, AML1-ETO, AML1-EAP, AML1-Evi1, and CBF beta-MYH11, inhibit early myeloid differentiation.
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PMID:PEBP2/CBF, the murine homolog of the human myeloid AML1 and PEBP2 beta/CBF beta proto-oncoproteins, regulates the murine myeloperoxidase and neutrophil elastase genes in immature myeloid cells. 803 30

Truncated AML1 proteins are predicted to be expressed from out-of-frame AML1 transcripts present in myeloid leukemia cells harboring t(8;21) and t(3;21). To test whether these proteins, consisting of almost exclusively an N-terminal AML1 DNA-binding domain, interfere with myeloid differentiation we expressed a similar truncated AML1 protein in 32D cl3 myeloid cells. In all clones examined, the ectopically expressed truncated AML1 protein prevented binding of endogenous PEBP2/CBFs to DNA, possibly by interacting with all available CBF beta subunits. However, compared to control clones, the 32D cl3 clones expressing truncated AML1 remained IL-3 dependent for survival, proliferated similarly in low and high concentrations of IL-3, and differentiated similarly upon transfer to G-CSF. Thus, truncated AML1 proteins may contribute to myeloid leukemogeneis by inhibiting PEBP2/CBF activities, although contributions from other oncoproteins are likely required as well.
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PMID:DNA-binding domain of AML1, expressed in t(8;21) and t(3;21) myeloid leukemias, inhibits PEBP2/CBF DNA-binding but is not sufficient to transform 32D cl3 myeloid cells. 866 56

The Runt domain is the DNA-binding domain defining a small family of transcription factors that are involved in important developmental processes. Developmental pathways controlled by Runt domain proteins include sex determination, neurogenesis, segmentation, and eye development in Drosophila and hematopoiesis in mammals. In addition to binding DNA, the Runt domain also mediates heterodimerization with another subunit called the core-binding factor beta (CBFbeta) subunit. In this study we overexpress the Runt domain from the mouse CBFalpha2 (AML1) protein in Escherichia coli, and purify it from the insoluble fraction. We determine the equilibrium constants for Runt domain binding to two different DNA sequences by surface plasmon resonance technology. Circular dichroism spectroscopy demonstrates that the Runt domain is a folded beta-domain with essentially no alpha-helical content. The single tryptophan residue in the CBFalpha2 Runt domain at amino acid 79 is shown by tryptophan fluorescence spectroscopy to reside in a polar environment. Finally, we demonstrate that ATP can be UV cross-linked to the Runt domain and that ATP binding is sensitive to an amino acid substitution in the putative Kinase-1a motif (P-loop).
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PMID:Biochemical and biophysical properties of the core-binding factor alpha2 (AML1) DNA-binding domain. 882 75

Chromosomal abnormalities involving the short arm of chromosome 12 have been frequently observed in a broad spectrum of hematological malignancies. Recently, a gene located in this chromosomal region and implicated in leukemogenesis was identified. The gene, called ETV6 (previously known as TEL) is a new member of the ETS family, a group of genes thought to act as transcriptional activators. The gene spans 240 kb and consists of eight exons coding for a helix-loop-helix (HLH) and a DNA-binding domain. ETV6 was originally identified in a t(5;12)(q33;p13) occurring in a chronic myelomonocytic leukemia (CMML). Recent reports, however, show its involvement in a growing number of translocations associated with myeloid as well as lymphoid leukemias. At the molecular level fusions of ETV6 with PDGFRB (5q33), ABL (9q34), MNI(22q11) and AML1(21q22) have already been identified. Analysis of these chimeric proteins indicates that distinct domains of ETV6 can be involved in different fusion products, thus ETV6 can provide transcriptional and dimerization properties for partner genes, or the gene itself can act as an altered transcriptional factor. At least two clinico-pathological entities associated with ETV6 rearrangements have emerged as distinct disorders. The first one is a chronic myeloid malignancy characterized by t(5;12)(q33;p13), monocytosis and/or eosinophilia. The second entity is a type of childhood acute lymphoblastic leukemia (ALL) hallmarked by t(12;21)(p13;q22), and is shown to be the most frequent but cytogenetically largely undetectable chromosomal anomaly in childhood ALL.
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PMID:ETV6 gene rearrangements in hematopoietic malignant disorders. 903 Nov 9

Acute myeloid leukaemia (AML) is a major haematopoietic malignancy characterized by the proliferation of a malignant clone of myeloid progenitor cells. A reciprocal translocation, t(8;21)(q22;q22), observed in the leukaemic cells of approximately 40% of patients with the M2 subtype of AML disrupts both the AML1 (CBFA2) gene on chromosome 21 and the ETO (MTG8) gene on chromosome 8 (refs 3-5). A chimaeric protein is synthesized from one of the derivative chromosomes that contains the N terminus of the AML1 transcription factor, including its DNA-binding domain, fused to most of ETO, a protein of unknown function. We generated mice that mimic human t(8;21) with a "knock-in' strategy. Mice heterozygous for an AML1-ETO allele (AML1-ETO/+) die in midgestation from haemorrhaging in the central nervous system and exhibit a severe block in fetal liver haematopoiesis. This phenotype is very similar to that resulting from homozygous disruption of the AML1 (Cbfa2) or Cbfb genes, indicating that AML1-ETO blocks normal AML1 function. However, yolk sac cells from AML1-ETO/+ mice differentiated into macrophages in haematopoietic colony forming unit (CFU) assays, unlike Cbfa2-/- or Cbfb-/-cells, which form no colonies in vitro. This indicates that AML1-ETO may have other functions besides blocking wild-type AML1, a property that may be important in leukaemogenesis.
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PMID:Embryonic lethality and impairment of haematopoiesis in mice heterozygous for an AML1-ETO fusion gene. 905 47

The distal enhancer of the T-cell receptor (TCR) alpha chain gene has become a paradigm for studies of the assembly and activity of architectural enhancer complexes. Here we have reconstituted regulated TCR alpha enhancer activity in vitro on chromatin templates using purified T-cell transcription factors (LEF-1, AML1, and Ets-1) and the cyclic AMP-responsive transcription factor CREB. When added in combination, these factors activate the TCR alpha enhancer in a highly synergistic manner. Alternatively, the enhancer could also be activated in vitro by high levels of either CREB or a complex containing all of the T-cell proteins (LEF-1, AML1, and Ets-1). Phosphorylation of CREB by protein kinase A enhanced transcription 10-fold in vitro, and this effect was abolished by a point mutation affecting the CREB PKA phosphorylation site (Ser-133). Interestingly, LEF-1 strongly enhanced the binding of the AML1/Ets-1 complex on chromatin, but not nonchromatin, templates. A LEF-1 mutant containing only the HMG DNA-binding domain was sufficient to form a higher-order complex with AML1/Ets-1, but exhibited only partial activity in transcription. We conclude that the T cell-enriched proteins assemble on the enhancer independently of CREB and function synergistically with CREB to activate the TCR alpha enhancer in a chromatin environment.
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PMID:Distinct roles for P-CREB and LEF-1 in TCR alpha enhancer assembly and activation on chromatin templates in vitro. 910 60

The AML1 is the most commonly involved transcription factor gene in human leukemias and forms chimeric transcription factor genes, namely, AML1/MTG8 by the t(8;21), AML1/EVI-1 by the t(3;21), and TEL/AML1 by the t(12;21). The AML1a and AML1b, two isoforms of the AML1 protein, are translated from the AML1 gene by the alternative splicing. The shorter form and longer form are named as AML1a and AML1b, respectively. The AML1b contains the runt homology domain as a DNA-binding domain and the serine/proline/threonine-rich domain (PST domain) as a putative transactivation domain. The AML1a contains only the runt homology domain, but not the PST domain. The AML1b has a transactivation ability through the PEBP2 site and stimulates differentiation of myeloid cells. On the other hand, AML1a cna bind the PEBP2 site, but does not show a transactivation ability through the PEBP2 site. The AML1a dominantly suppresses transactivation induced by the AML1b and has the ability to block differentiation of myeloid cells. It is a reasonable hypothesis that the molecular ratio of AML1a to AML1b in myeloid cells could determine whether they proliferate or undergo a terminal differentiation.
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PMID:Leukemogenesis by the chromosomal translocations. 920 70

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