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)

The hallmark of chronic myelocytic leukemia is the presence of the Philadelphia chromosome (Ph1). In recent studies, we obtained data that strongly suggested the involvement of an oncogene, c-abl, in this type of leukemia. This oncogene, normally located on chromosome 9, is translocated to chromosome 22 as a result of the Ph1 translocation. In addition, we identified a region on chromosome 22, the breakpoint cluster region (bcr), which contains the chromosomal breakpoint in all patients with chronic myelocytic leukemia who are positive for Ph1. Recent studies have suggested that the bcr is part of a gene that is truncated as a consequence of the Ph1 translocation. The deleted part of this gene could be replaced by c-abl sequences; to test this hypothesis we analyzed the RNA of five patients with chronic myelocytic leukemia. All five had chimeric bcr/c-abl messenger RNA, suggesting that the deleterious effects of this disease can be associated with an abnormal chimeric protein encoded by the bcr and the c-abl oncogene.
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PMID:Evidence of a new chimeric bcr/c-abl mRNA in patients with chronic myelocytic leukemia and the Philadelphia chromosome. 386 9

The AML-1/ETO fusion protein is created by the (8;21) translocation, the second most frequent chromosomal abnormality associated with acute myeloid leukemia. In the fusion protein the AML-1 runt homology domain, which is responsible for DNA binding and CBF beta interaction, is linked to ETO, a gene of unknown function. The primary sequences of the runt homology domain indicates no known DNA binding motifs, but is predicted to contain six beta-strands, two alpha-helices and a nucleotide binding motif. Mutagenesis of AML-1/ETO was performed to delimit the functional domains of the chimeric protein. Most mutations in the runt homology domain that resulted in reduced CBF beta binding also inhibited DNA binding, indicating that the DNA and CBF beta binding sequences are tightly linked. However, these activities were separated by a point mutation of residue 144, within the putative ATP binding motif, which nearly eliminated DNA binding, but did not affect CBF beta binding. Random mutagenesis identified the hydrophobic face of the amphipathic fifth beta-strand, adjacent to the putative ATP binding motif, as critical for both DNA and CBF beta binding. C-terminal deletion mutants of AML-1/ETO indicated that ETO sequences are essential for interference with AML-1B-mediated transcriptional activation, and that residue 540 defines the C-terminal boundary of a potential repression domain. Thus, these mutational analyses define the regions of AML-1/ETO which regulate its function and that may be important in promoting leukemia.
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PMID:Functional domains of the t(8;21) fusion protein, AML-1/ETO. 747 4

Cytogeneticists recognize that karyotypic abnormalities are associated with specific malignancies. In 1960, Nowell described the Philadelphia chromosome (Ph) and its relationship to chronic myelogenous leukemia (CML). Subsequent work in molecular genetics and biology has revealed that the Ph is a translocation that causes fusion of gene sites that code for the break cluster region (BCR) and the avian blastic leukemia (ABL) proteins. This so-called fusion protein is present in a large percentage of the patients who have CML. A related fusion protein is seen in about one third of patients with acute lymphoblastic leukemia. The BCR-ABL fusion protein results in increased tyrosine kinase activity. The mechanism of action is thought to be via signal transduction related to guanosine triphosphatase activating protein which interacts with a ras-p21 binding protein. Acute promyelocytic leukemia (APL) is associated with the cytogenetic abnormality of t(15;17). This alters the promyelocytic leukemia (PML) and the retinoic acid receptor alpha (RARA) gene sites. Two fusion proteins are the result of this cytogenetic abnormality. They are termed PML-RARA and RARA-PML. Only one, the PML-RARA, is associated with APL. The PML-RARA chimeric protein has two zinc finger-like regions. It retains the ligand binding domain of RARA. The protein called PML has some similarities with a family of proteins which are thought to fuse to proto-oncogenes and to act as transforming proteins. The role of classical cytogenetics and the added capability of molecular biology has helped to elucidate some of the potential mechanisms for the development of cancer and provided additional understanding of neoplasia. (ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cytogenetics, gene fusions, and cancer. 748 13

Fli-1, an ets related gene, was found to be rearranged in 75% of erythroleukemias induced by Friend murine leukemia virus. We have shown previously that the Fli-1 gene codes for a sequence specific transcriptional activator which contains two autonomous transcriptional activation domains, one at the amino terminal region and the other at the carboxy terminal region. Recently human Fli-1 gene was shown to be involved in Ewing's sarcoma and related subtypes of primitive neuroectodermal tumors which share t(11;22) (q24;q12) chromosome translocation. In these tumors the carboxyl terminal region of Fli-1 was found to be fused with the amino terminal region of a putative RNA binding protein, EWS. Because part of the amino terminal transcriptional activation domain of Fli-1 was replaced with the amino terminal domain of the EWS (NTD-EWS) which shares homology with RNA polymerase II, it was speculated that NTD-EWS may interfere with RNA pol II function. Alternatively, NTD-EWS could also contribute to the transcriptional activation function of EWS/Fli-1 chimeric protein by providing either a modulatory/regulatory domain or a novel transcriptional activation domain. Here we show that EWS/Fli-1 chimeric protein functions as a transcriptional activator. Deletion analysis reveals that the EWS domain functions as a modulatory/regulatory domain for the transcriptional activation properties of the carboxy terminal transcriptional activation domain of EWS/Fli-1. We therefore propose that replacement of the amino terminal transcriptional activation domain of the Fli-1 protein with the regulatory domain of NTD-EWS results in the activation of the carboxy terminal transcriptional activation domain of Fli-1 which may be the molecular mechanism involved in these human tumors.
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PMID:EWS/Fli-1 chimeric protein is a transcriptional activator. 750 13

Granulocyte colony-stimulating factor (G-CSF) is a potent stimulator of the growth of normal and malignant hematopoietic cells and synergizes with other factors such as interleukin-3 (IL-3) and granulocyte-macrophage colony-stimulating factor (GM-CSF). The action of G-CSF is mediated through a specific membrane receptor, however it is not clear if all of the effects of G-CSF are direct or indirect. As a step towards addressing this problem, a recombinant diphtheria toxin (DT)-related human G-CSF fusion protein has been constructed and purified from E. coli. The 70,000 dalton chimeric protein has immunologic determinants characteristic of both DT and G-CSF. At high concentrations, DAB486-G-CSF is cytotoxic towards G-CSF-dependent OCI/AML1 cells, but not factor independent OCI/AML3 cells; colony formation by G-CSF-responsive leukemic blasts from a patient with acute myeloblastic leukemia (AML) was also inhibited. The G-CSF fusion toxin displayed ADP-ribosyltransferase activity in a cell-free system. Genetic conjugation of G-CSF to an enzymatically inactive DT mutant, CRM197, resulted in a 200-fold reduction in the ability of G-CSF to stimulate normal bone marrow colony formation. These results suggest that fusion of G-CSF to DT sequences interferes with some of the activity but not the specificity of the ligand binding domain of the molecule. Nevertheless, DAB486-G-CSF may be included with the increasing number of other toxin-hormone fusion proteins whose toxicity is directed towards specific receptor-bearing cells, and may represent a novel approach towards the study and treatment of leukemia.
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PMID:Cytotoxicity of a recombinant diphtheria toxin-granulocyte colony-stimulating factor fusion protein on human leukemic blast cells. 750 48

Patients with acute myeloid leukaemia with maturation (AML-M2) that carried the t(8;21) were tested for the presence of chimeric AML1/ETO mRNA. After RT-PCR, an expected band of 208 bp was observed on gel, as well as some slower migrating bands. The base composition of one of the additional products was determined and was found to contain a new 68-bp ETO sequence present at the fusion of AML1 and ETO genes. The derived protein sequence results in a truncated AML1 gene still containing the putative DNA binding domain. Molecular diversity in the AML1-ETO transcripts will have consequences for the detection of minimal residual disease and antisense studies.
Leukemia 1994 Oct
PMID:Molecular diversity in AML1/ETO fusion transcripts in patients with t(8;21) positive acute myeloid leukaemia. 752 1

The p210bcr/abl chimeric protein is considered to be implicated in the pathogenesis of Philadelphia chromosome-positive human leukemias. To investigate its biologic function in vivo, we generated transgenic mice expressing p210bcr/abl driven by the metallothionein enhancer/promoter. Two of six founder mice and the transgenic progeny developed leukemias several months after birth. In the leukemic tissues, the expression of the p210bcr/abl transgene product was detected and the increased tyrosine-phosphorylation of cellular proteins was observed. The expressed p210bcr/abl transgene product was shown to possess an enhanced kinase activity. The leukemic cells showed rearrangements in the T-cell receptor loci, indicating that the leukemic cells were monoclonal and committed to the T-cell lineage. Polymerase chain reaction analysis for tissue distribution of p210bcr/abl expression showed that, in the transgenic line that reproducibly developed leukemias, p210bcr/abl was expressed in the hematopoietic tissues such as thymus and spleen; on the other hand, in the transgenic lines that have not developed leukemias, p210bcr/abl expression was detected only in the nonhematopoietic tissues such as the brain and kidney. These results suggest that the tumorigenicity of the p210bcr/abl chimeric protein is restricted to the hematopoietic tissues in vivo and that an event enhancing p210bcr/abl expression contributed a proliferative advantage to hematopoietic precursor cells and eventually developed T-cell leukemia in transgenic mice.
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PMID:Expression of p210bcr/abl by metallothionein promoter induced T-cell leukemia in transgenic mice. 753 82

All-trans retinoic acid (ATRA) has been used as a potent differentiation drug for acute promyelocytic leukemia (APL). Although the mechanism of its effectiveness upon APL remains unclear, the PML-retinoic acid receptor alpha (RARA) chimeric protein produced by t(15;17) is assumed to underlie the sensitivity of APL cells to ATRA. There are two major isoforms of PML-RARA transcripts; short (S) and long (L), according to the breakpoints in the PML gene. We therefore compared the clinical variables, the response to ATRA and the prognosis between 28 patients with type S and 68 patients with type L. Patients were treated in multi-institutional trials with ATRA, and chemotherapy was combined when peripheral blasts and leukocyte counts increased during the therapy. The clinical features at diagnosis were similar between the two molecular subtypes, and there was no significant difference in remission induction rates; 86% for the type S group and 90% for the type L group. There was no statistical difference in overall survival and CR duration as well as disease-free survival (DFS). In newly diagnosed patients, predicted 2-year DFS was 66% for the type S group and 67% for the type L group. In refractory or relapsed patients, it was 19 and 23%, respectively. These data indicated that isoforms of PML-RARA fused transcripts affect neither the clinical features of APL nor the prognosis after treatment with ATRA.
Leukemia 1995 Sep
PMID:Isoforms of PML-retinoic acid receptor alpha fused transcripts affect neither clinical features of acute promyelocytic leukemia nor prognosis after treatment with all-trans retinoic acid. The Leukemia Study Group of the Ministry of Health and Welfare (Kohseisho). 765 15

The functional relationship between the polymerase and RNase H domains of reverse transcriptase (RT) was investigated by studying the activities of AKR murine leukemia virus (MuLV) enzymes. In addition to the wild type, an RNase H-minus RT missing the entire RNase H domain and two other mutants having abnormal polymerase:RNase H ratios were expressed. These mutants include (i) a chimeric protein in which the MuLV RNase H domain was replaced by the entire Escherichia coli RNase H sequence and (ii) an RT with a 126 amino acid deletion in a region analogous to the "connection" subdomain in the p66 subunit of human immunodeficiency virus type 1 RT (Kohlstaedt, L. A., Wang, J., Friedman, J. M., Rice, P. A., & Steitz, T. A. (1992) Science 256, 1783-1790). With the wild-type RT, the major RNase H cleavage reaction was coordinated with DNA synthesis and occurred at a position corresponding to 15 nucleotides from the 3'-terminus of the DNA primer. Additional cleavages closer to the 5'-end of the RNA were explained in terms of a model relating binding of the RNA.DNA hybrid substrate and enzyme structure. The chimeric RT behaved like E. coli RNase H, exhibited 300-fold higher RNase H activity than wild-type RT, and was limited in its ability to synthesize DNA. Qualitative and quantitative changes in the polymerase and RNase H activities of the deletion mutant were also observed. The RNase H domain appeared to function independently of the polymerase domain, supporting the idea that the proper spatial relationship between the two active centers was disrupted by the mutation. Taken together, our results indicate that alteration of the normal polymerase:RNase H ratio can have profound effects on both polymerase and RNase H cleavage activities, as expected for an enzyme with two interdependent domains.
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PMID:A large deletion in the connection subdomain of murine leukemia virus reverse transcriptase or replacement of the RNase H domain with Escherichia coli RNase H results in altered polymerase and RNase H activities. 768 24

A chromosomal translocation, t(4;11)-(q21;q23), is associated with an aggressive mixed-lineage leukemia. A yeast artificial chromosome was used to clone the chromosomal breakpoint of this translocation in the RS4;11 cell line. The breakpoint sequences revealed an inverted repeat bordered by a consensus site for topoisomerase II binding and cleavage as well as chi-like elements. The der(11) chromosome encodes a fusion RNA and predicted chimeric protein between the 11q23 gene MLL and a 4q21 gene designated AF4. The sequence of the complete open reading frame for this fusion transcript reveals the MLL protein to have homology with DNA methyltransferase, the Drosophila trithorax gene product, and the "AT-hook" motif of high-mobility-group proteins. An alternative splice that deletes the AT-hook region of MLL was identified. AF4 is a serine- and proline-rich putative transcription factor with a glutamine-rich carboxyl terminus. The composition of the complete MLL-AF4 fusion product argues that it may act through either a gain-of-function or a dominant negative mechanism in leukemogenesis.
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PMID:Acute mixed-lineage leukemia t(4;11)(q21;q23) generates an MLL-AF4 fusion product. 768 31


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