Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0023418 (leukemia)
 93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In mammals, folylpoly-gamma-glutamate synthetase (FPGS) activity is found in any cell undergoing sustained proliferative phases, but this enzyme also displays a tissue-specific pattern of expression in differentiated tissues. It is now reported that the steady state levels of FPGS mRNA in normal and neoplastic cells reflect these patterns, supporting the concept that the control mechanisms underlying this distribution are transcriptional. To initiate an understanding of these interacting levels of control, we have determined the position and properties of the minimal FPGS promoter controlling transcription of the FPGS gene in human CEM leukemia cells, a line which expresses high levels of this enzyme and its mRNA. The TATA-less region immediately upstream of the major transcriptional start site previously mapped in human tumor cells, which includes several GC- and Y-boxes, functioned as a remarkably efficient promoter when used to drive expression of a luciferase reporter in transient expression studies in CEM cells. The minimal region of the FPGS promoter required for maximal transcriptional activation in CEM cells included the 80 base pairs over which the multiple transcriptional start sites were located, and the 43 base pairs immediately upstream. DNase I footprint analysis detected the binding of Sp1 at all seven of the consensus sites within the probe used, two of which are contained within the minimal promoter region. The several Sp1 sites immediately upstream of the first major transcriptional start activated transcription in Drosophila cells when cotransfected with an Sp1 construct, including those in the region which functioned as a minimal promoter in CEM cells. An additional region of the minimal promoter, situated between the two translational start codons of the FPGS gene, was bound by protein(s) from HeLa cell nuclear extracts. We conclude that transcription of the FPGS gene in CEM cells involves transactivation events over a limited upstream DNA sequence and that the FPGS promoter used in proliferating human leukemic cells has strong similarity to other TATA-less promoters that utilize tandem, closely spaced Sp1 sites to initiate transcription.
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PMID:Transcription of the human folylpoly-gamma-glutamate synthetase gene. 931 58

The SCL gene (also known as TAL-1) encodes a basic helix-loop-helix transcription factor that is essential for the development of all haematopoietic lineages, and ectopic expression of which results in T cell leukaemia. SCL is expressed in normal pluripotent haematopoietic stem cells and its expression is maintained during differentiation along erythroid, mast and megakaryocytic lineages, but is extinguished following commitment to other cell types. The mechanisms responsible for this pattern of expression are poorly understood, but are likely to illuminate the molecular basis for stem cell development and lineage commitment. We have identified multiple lineage-restricted DNase I hypersensitive sites in a 45 kb region spanning the murine SCL locus. Committed erythroid cells and CD34 positive primitive myeloid cells exhibited both shared and unique DNase I hypersensitive sites whereas none were found in T cells. The function of each hypersensitive site was studied using both transient and stable reporter assays in erythroid, primitive myeloid and T cells. Multiple positive and negative regulatory elements were characterised and found to display lineage-specificity, promoter-specificity and/or chromatin-dependence. These results represent the first description of key components of a complex network of regulatory elements controlling SCL expression during haematopoiesis.
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PMID:Transcription of the SCL gene in erythroid and CD34 positive primitive myeloid cells is controlled by a complex network of lineage-restricted chromatin-dependent and chromatin-independent regulatory elements. 939 38

ALL1, the human homologue of Drosophila trithorax, is directly involved in human acute leukemias associated with abnormalities at 11q23. Using the differential display method, we isolated a gene that is down-regulated in All1 double-knockout mouse embryonic stem (ES) cells. The gene, designated ARP1 (also termed RIEG, Ptx2, or Otlx2), is a member of a family of homeotic genes containing a short motif shared with several homeobox genes. Using a bacterially synthesized All1 polypeptide encompassing the AT-hook motifs, we identified a 0.5-kb ARP1 DNA fragment that preferentially bound to the polypeptide. Within this DNA, a region of approximately 100 bp was protected by the polypeptide from digestion with ExoIII and DNase I. Whole-mount in situ hybridization to early mouse embryos of 9.5-10.5 days indicated a complex pattern of Arp1 expression spatially overlapping with the expression of All1. Although the ARP1 gene is expressed strongly in bone marrow cells, no transcripts were detected in six leukemia cell lines with 11q23 translocations. These results suggest that ARP1 is up-regulated by the All1 protein, possibly through direct interaction with an upstream DNA sequence of the former. The results are also consistent with the suggestion that ALL1 chimeric proteins resulting from 11q23 abnormalities act in a dominant negative fashion.
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PMID:Identification and characterization of the ARP1 gene, a target for the human acute leukemia ALL1 gene. 953 79

Cas-Br-E and Graffi are two murine viruses that induce myeloid leukemia in mice: while Cas-Br-E induces mostly non-T, non-B leukemia composed of very immature cells, Graffi causes exclusively a granulocytic leukemia (E. Rassart, J. Houde, C. Denicourt, M. Ru, C. Barat, E. Edouard, L. Poliquin, and D. Bergeron, Curr. Top. Microbiol. Immunol. 211:201-210, 1995). In an attempt to understand the basis of the myeloid specificity of these two retroviruses, we used DNase I footprinting analysis and gel mobility shift assays to identify a number of protein binding sites within the Cas-Br-E and Graffi U3 regions. Two protected regions include potential GATA binding sites. Methylation interference analysis with different hematopoietic nuclear extracts showed the importance of the G residues in these GATA sites, and supershift assays clearly identified the binding factors as GATA-1, GATA-2, and GATA-3. Transient assays with long terminal repeat (LTR)-chloramphenicol acetyltransferase constructs showed that these three GATA family members are indeed able to transactivate Cas-Br-E and Graffi LTRs. Thus, the availability and relative abundance of the various members of the GATA family of transcription factors in a given cell type could influence the transcriptional tissue specificity of murine leukemia viruses and hence their disease specificity.
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PMID:Members of the GATA family of transcription factors bind to the U3 region of Cas-Br-E and graffi retroviruses and transactivate their expression. 962 Oct 16

The human leukemia U937 cells differentiate into monocyte/macrophage-like cells when treated with 12-O-tetradecanoylphorbol-13-acetate (TPA). We observed that during this process, both protein and mRNA levels for PARS markedly decreased in U937 cells. Through deletion analysis of the PARS regulatory gene, we found that the sequence within the first intron region was responsible for the TPA-dependent repression. Electrophoretic mobility shift assays (EMSAs) and Southwestern blot analysis indicate that this element bound specifically to a nuclear protein. TPA treatment abolished the binding of the protein in U937 cells but not in HeLa cells. DNase I footprinting data show that the cis regulatory element is located between residues 328 and 383. We further examined the function of this cis element (BS207) in a basal promoter regulatory reporter construct and found that this cis element (BS207) functions as an enhancer via the binding of an unknown trans-acting factor. TPA treatment diminished the binding activity of the factor in U937 cells, resulting in a decrease in the enhanced activity to the basal level. These results suggest that abolishment of the binding of a special nuclear protein to the first intron of the PARS gene is related to the TPA-responsive downregulation of PARS in U937 cells.
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PMID:Analysis of the TPA regulatory element in the genomic poly(ADP-ribose) synthetase gene in human leukemia U937 cells. 976 Feb 55

An ergosterol derivative, 4-hydroxy-17-methylincisterol (HMI), was found to be an inhibitor of mammalian DNA polymerases in vitro. HMI inhibited the activity of calf thymus DNA polymerase alpha (pol. alpha). Among the polymerases tested, pol. alpha was the most sensitive to inhibition by HMI, and the inhibition was concentration dependent. The inhibitory effect of HMI on pol. alpha was almost the same as that shown by aphidicolin, a well-known potent pol. alpha inhibitor. HMI had relatively less effect on rat DNA pol. beta, human immunodeficiency virus type 1 reverse transcriptase (HIV-RT), and calf thymus terminal deoxynucleotidyl transferase (TdT) in vitro, and did not influence the activities of prokaryotic DNA polymerases such as Klenow Fragment of DNA polymerase I, or the DNA-metabolic enzyme DNase I. HMI was found to be able to prevent the growth of human cancer cell lines originating from patients with leukemia or various solid tumors; its IC50 values ranged from 7.5 to 12 microM. We also synthesized other ergosterol derivatives and tested them, and found that two compounds, 17-methylincisterol and 4-acetyl-17-methylincisterol, have similar inhibitory effects.
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PMID:4-Hydroxy-17-methylincisterol, an inhibitor of DNA polymerase-alpha activity and the growth of human cancer cells in vitro. 978 27

The human myeloid-lymphoid leukemia gene, MLL (also called ALL-1, Htrx, or HRX ), maps to chromosomal band 11q23. MLL is involved in translocations that result in de novo acute lymphoblastic leukemia (ALL), acute myelogenous leukemia (AML), mixed lineage leukemia, and also in therapy AML (t-AML) and therapy ALL (t-ALL) resulting from treatment with DNA topoisomerase II (topo II) targeting drugs. MLL can recombine with more than 30 other chromosomal bands, of which 16 of the partner genes have been cloned. Breaks in MLL occur in an 8. 3-kb breakpoint cluster region (BCR) encompassing exons 5 through 11. We recently demonstrated that 75% of de novo patient breakpoints in MLL mapped in the centromeric half of the BCR between two scaffold-associated regions (SAR), whereas 75% of the t-AML patient breakpoints mapped to the telomeric half of the BCR within a strong SAR. We have mapped additional structural elements in the BCR. An in vivo DNA topo II cleavage site (induced with several different drugs that target topo II) mapped near exon 9 in three leukemia cell lines. A strong DNase I hypersensitive site (HS) also mapped near exon 9 in four leukemia cell lines, including two in which MLL was rearranged [a t(6;11) and a t(9;11)], and in two lymphoblastoid cell lines with normal MLL. Two of the leukemia cell lines also showed an in vivo topo II cleavage site. Our results suggest that the chromatin structure of the MLL BCR may influence the location of DNA breaks in both de novo and therapy-related leukemias. We propose that topo II is enriched in the MLL telomeric SAR and that it cleaves the DNase I HS site after treatment with topo II inhibitors. These events may be involved in recombination associated with t-AML/t-ALL breakpoints mapping in the MLL SAR.
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PMID:An in vivo topoisomerase II cleavage site and a DNase I hypersensitive site colocalize near exon 9 in the MLL breakpoint cluster region. 980 73

Cas-Br-E and Graffi are two myeloid leukemia-inducing murine viruses. Cas-Br-E induces, in NIH-Swiss mice, mostly non-T, non-B leukemia composed of very immature cells with no specific characteristics (Bergeron et al. (1993). Leukemia 7, 954-962). The Graffi murine leukemia virus causes exclusively myeloid leukemia, but the tumor cells are clearly of granulocytic nature (Ru et al. (1993). J. Virol. 67, 4722). We were interested to understand the role of the long terminal repeat (LTR) U3 region in the myeloid specificity of these two retroviruses. We used DNase I footprinting and gel mobility shift assays to identify a number of protein binding sites within Cas-Br-E and Graffi U3 regions. The pattern of protected regions is highly similar for the two viruses. Some factors identified in other murine leukemia viruses, like the core binding factor, also bind to Cas-Br-E and Graffi LTR; however, other binding sites seem specific for these two viruses. Only one difference between them was noted, at the 5' end of the U3 region. Transcriptional activity of both LTRs was also analyzed in various cell lines and compared with other murine leukemia viruses. The results show a slight myeloid specificity for the two LTRs, and indicate that the Graffi enhancer is quite strong in a broad range of cell types.
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PMID:Nuclear factors that bind to the U3 region of two murine myeloid leukemia-inducing retroviruses, Cas-Br-E and Graffi. 987 19

Antigene strategies based on the use of triplex-forming oligonucleotides (TFO) as artificial repressors are constrained by the need for genomic targets with a polypurine-polypyrimidine [poly (R.Y)] DNA motif. In this study, we demonstrate that both A/G and G/T motif oligonucleotides recognize and bind strongly to a critical polypurine sequence interrupted in the middle by two adjacent cytosines and located in the promoter of the human bcr gene at the transcription initiation. The interaction between the designed TFO and this irregular poly (R.Y) target has been studied using a number of techniques, including electrophoretic mobility shift assay (EMSA), circular dichroism (CD), DNase I, and dimethyl sulfate (DMS) footprinting. Although CD shows that the 24-mer TFO self-aggregate in solution, they bind to the bcr target at 37 degrees C, forming stable triplexes that do not dissociate during electrophoretic runs performed up to 50 degrees C in 50 mM Tris-acetate, pH 7.4, 10 mM MgCl2, 50 mM NaCl (buffer A). We used EMSA to determine the equilibrium dissociation constants (Kd) for the reaction T <==> D + TFO at 37 degrees C, either in buffer A or in 50 mM Tris-acetate, pH 7.4, 10 mM MgCl2, 5 mM NaCl (buffer B). The triplexes were found to be more stable in buffer B, a behavior that can be rationalized in terms of monovalent and divalent cation competition for binding to DNA. Footprinting experiments showed that the TFO interact with the irregular poly (R.Y) target in a highly sequence-specific way and that the A/G motif oligonucleotide, juxtaposing T to the double CG inversions of the target, formed the most stable triplex (e.g., 1 microM TFO promoted strong footprints at 37 degrees C). These triplexes, except the one containing two A.C.G mismatched triads, are not destabilized under near physiologic conditions, that is, in 50 mM Tris-acetate, pH 7.4, 80 mM KCl, 20 mM NaCl, 2 mM spermidine. Moreover, we found that guanine N7 in T.C.G and guanine N7 in A.C.G are both accessible to DMS and that the first is less reactive than the second. In conclusion, the results of this study indicate that a critical sequence in the human ber promoter may be used as a potential binding site for TFO designed to repress artificially the transcription of the fused bcr/abl gene expressed in leukemia cells.
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PMID:Formation of stable DNA triple helices within the human bcr promoter at a critical oligopurine target interrupted in the middle by two adjacent pyrimidines. 991 12

The human AF9 gene at 9p22 is one of the most common fusion partner genes with the MLL gene at 11q23, resulting in the t(9;11)(p22;q23). The MLL-AF9 fusion gene is associated with de novo acute myelo-genous leukemia (AML), rarely with acute lymphocytic leukemia (ALL) and with therapy related leukemia (t-AML). The AF9 gene is >100 kb and two patient breakpoint cluster regions (BCRs) have been identified; BCR1 is within intron 4, previously called site A, whereas BCR2 or site B spans introns 7 and 8. Patient breakpoint locations were determined previously by RT-PCR and by genomic DNA cloning. In this study, we defined the exon-intron boundaries and identified several different structural elements in AF9 including a co-localizing in vivo DNA topo II cleavage site and an in vitro DNase I hypersensitive (DNase 1 HS) site in intron 7 in BCR2. Reversibility experiments demonstrated a religation of the topo II cleavage sites. The location of the in vivo topo II cleavage site was confirmed in vitro using a topo II cleavage assay. In addition, two scaffold associated regions (SARs) are located centromeric to the topo II and DNase I HS cleavage sites and border both patient breakpoint regions: SAR1 is located in intron 4, whereas SAR2 encompasses parts of exons 5-7. This study demonstrates that the patient breakpoint regions of AF9 share the same structural elements as the MLL BCR. We describe a DNA breakage and repair model for non-homologous recombination between MLL and its partner genes, particularly AF9.
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PMID:DNA structural properties of AF9 are similar to MLL and could act as recombination hot spots resulting in MLL/AF9 translocations and leukemogenesis. 1086 Dec 94


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