UMLS:C0023473 - FACTA Search

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Query: UMLS:C0023473 (chronic myeloid leukemia)
18,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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

Recent extensive work on apoptosis has begun to reveal its molecular mechanisms. Several genes that regulate apoptosis have been identified. Among them, the BCL2 gene is considered to be an important gene that inhibits apoptosis. However, there must be other genes, yet to be identified, which suppress apoptosis. It has been suggested that the activation of RAS function by BCR-ABL fusion protein in chronic myelogenous leukemia may be an important mechanism in the BCR-ABL mediated transformation. Therefore, in this study we have investigated whether the suppression of endogenous H-RAS function inhibits the BCR-ABL mediated transforming activity in a K562 human chronic myelogenous leukemia cell line. The induced expression of a dominant negative v-H-RAS mutant (116Y) in K562 cells has resulted in cell death. The morphological characteristics and the detection of fragmented DNA by gel electrophoresis in the dead cells have revealed that this cell death is apoptosis. These results directly indicate that the RAS gene as well as the BCL2 gene has an ability to suppress apoptosis.
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PMID:Induction of apoptosis by a dominant negative H-RAS mutant (116Y) in K562 cells. 795 61

Apoptosis is the major form of cell death associated with the action of chemotherapeutic agents on tumor cells, and therefore the expression of genes that interfere with apoptosis can have important consequences for the efficacy of therapeutic approaches. Here we show that K562, a chronic myelogenous leukemia (CML) cell line expressing the BCR-ABL fusion protein, are resistant to the induction of apoptosis by a number of agents and conditions. Antisense oligodeoxynucleotides corresponding to the translation start of bcr downregulate bcr-abl protein in these cells and render them susceptible to induction of apoptosis by chemotherapeutic agents or serum deprivation. Expression of a temperature sensitive v-Abl protein reverses the effects of the antisense oligonucleotides, such that the cells remain resistant to apoptosis at the permissive temperature. These data indicate that bcr-abl acts as an anti-apoptosis gene in CML cells and suggests that the effect is dependent on the abl kinase activity in this chimeric protein. Inhibition of bcr-abl to render CML cells susceptible to apoptosis can be combined with therapeutic drugs and/or treatment capable of inducing apoptosis to provide an effective strategy for elimination of these cells.
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PMID:BCR-ABL maintains resistance of chronic myelogenous leukemia cells to apoptotic cell death. 811 22

The BCR-ABL translocation of chronic myelogenous leukemia represents a paradigm for the study of translocations that create fusion proteins. The work of many laboratories has clearly established that the BCR-ABL protein can transform cells and cause leukemias in mice. This oncogenic signal appears to involve transduction of a tyrosine kinase signal from the cytoplasm to the nucleus via intermediary proteins such as ras and myc. Although the biological effects of the BCR-ABL fusion protein are well characterized, the normal biological functions of ABL and BCR are only beginning to come to light. ABL is a nuclear tyrosine kinase which binds DNA, suggesting a possible normal role in transcription. BCR has homology to proteins which regulate membrane ruffling. Understanding the normal roles of ABL and BCR will help define the abnormal leukemogenic effects of the BCR-ABL fusion.
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PMID:Molecular consequences of the BCR-ABL translocation in chronic myelogenous leukemia. 812 22

We have previously shown that the chimeric gene ABL-BCR, formed on the derivative chromosome 9q+ as a result of the t(9;22) translocation, is transcriptionally active in 65% of chronic myeloid leukemia patients. We have now used the same technique, reverse transcription/polymerase chain reaction amplification of ABL-BCR transcripts, to study nine patients with Philadelphia (Ph) chromosome-positive acute lymphoblastic leukemia (ALL); seven expressed the P190 and two the P210 type of BCR-ABL fusion protein. All seven patients with P190 had ABL-BCR transcripts containing a junction between ABL exon Ib and BCR exon 2 (Ib-e2); in two cases, ABL-BCR transcripts with the Ia-e2 junction type were also present. Of the two P210 ALL patients, one had a Ib-b4 ABL-BCR transcript and the other showed no detectable ABL-BCR expression. Although the BCR-ABL gene is probably fundamental in the pathogenesis of the Ph+ leukemias, differential expression of the ABL-BCR gene could contribute to the biologic heterogeneity of the disease.
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PMID:Expression of the ABL-BCR fusion gene in Philadelphia-positive acute lymphoblastic leukemia. 849 Jan 64

The erythromyeloid cell line, K562, the most sensitive target in human natural killer (NK) cell mediated cytotoxicity, is derived from a chronic myeloid leukemia (CML) patient and expresses the characteristic reciprocal translocation t(9;22). The resulting BCR-ABL fusion protein has been shown to mediate the unusual resistance of K562, and other BCR-ABL expressing lines, to apoptosis induced by a variety of agents (irradiation, UV light, cytotoxic drugs). Here we show that human NK and lymphokine-activated killer (LAK) cells, when tested at low effector to target ratio, can readily induce apoptotic death in K562 cells. This was accompanied with classical DNA oligonucleosomal fragmentation, an unexpected finding given the reported lack of such fragmentation when apoptosis is induced in K562 by chemical agents, after downregulation of BCR-ABL. Apoptosis was assessed by several means: morphological studies, 125I-DNA versus 51Cr release, DNA agarose gel electrophoresis, and results were always concordant, with a delayed kinetics for DNA oligonucleosomal fragmentation. Similar data were obtained with a pluripotent human hematopoietic cell line, UT-7, infected with a defective amphotropic p210 BCR-ABL retrovirus. The BCR-ABL expressing subclone UT-7/9, while being no longer sensitive to cytotoxic drugs or to tumor necrosis factor, a lytic mediator to which UT-7 cells are sensitive, underwent apoptotic death when exposed to LAK effector cells to the same degree as the parental UT-7 line. With these targets, DNA oligonucleosomal fragmentation occurred concomitantly with isotope release. Results obtained with several inhibitors of exocytosis strongly suggest that cytotoxic granules mediate NK and LAK cell-induced apoptotic death. In conclusion, NK and LAK cell-induced apoptotic signals, unlike those activated by chemotherapeutic agents, are unaffected by the antiapoptotic action of BCR-ABL. This unique property may support the observed curative effect of allogeneic bone marrow transplantation in CML.
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PMID:BCR-ABL does not prevent apoptotic death induced by human natural killer or lymphokine-activated killer cells. 856 37

Recent studies of the BCR-ABL fusion protein, the product of the oncogene responsible for chronic myelogenous leukemia, have identified a number of signal transduction pathways that are activated by this tyrosine kinase. In some cases, these pathways are critical mediators of the growth stimulatory effects of the oncogene on hemopoietic cells. This knowledge has been translated into therapeutic strategies that directly target BCR-ABL or the signaling pathways that BCR-ABL activates. Promising results in animal models have led to the design of Phase I clinical trials, which are in progress or will be under way shortly. These studies are among the first to target a specific genetic abnormality in human cancer.
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PMID:Signal transduction-based strategies for the treatment of chronic myelogenous leukemia. 901 91

This review describes the chromosomal abnormalities in T-cell acute lymphoblastic leukaemia (ALL) which result in the over-expression of the gene SCL, which encodes a helix-loop-helix transcription factor. Also described are how gene targeting studies have revealed a key role for SCL in normal haemopoiesis. Next, the BCR-ABL fusion protein, seen in chronic myeloid leukaemia (CML) and in some patients with ALL, is discussed. Finally, the involvement of members of the core-binding factor (CBF) gene family in leukaemogenesis are described. Members of this gene family are involved in the generation of fusion proteins as a result of t(8;21) and inv(16), the most common translocations associated with acute myeloid leukaemia (AML). They provide a useful model of the way in which aberrant transcriptional function, brought about through genetic alterations, can modify haemopoietic development.
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PMID:Factors involved in leukaemogenesis and haemopoiesis. 942 18

This article reviews the biology of chronic myelogenous leukemia (CML) and its effect on the process of hematopoiesis. The relevance of the BCR-ABL fusion protein as well as murine models are also discussed. CML has been studied more extensively than any other malignancy, yet the correlation between the clinical symptoms of chronic phase CML and the BCR-ABL oncoprotein is poorly understood. Insights from recent efforts both to develop a good in vivo animal model and to characterize the effect of the BCR-ABL oncoprotein on relevant signal molecules may lead to a better understanding of the pathophysiology of chronic phase CML and, thereby, to the development of targeted therapeutic approaches.
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PMID:Biology of chronic myelogenous leukemia. 952 24

Imatinib mesylate, also known as STI571 or CGP57148, is a competitive inhibitor of a few tyrosine kinases, including BCR-ABL, ABL, KIT, and the platelet-derived growth factor receptors (PDGF-R). It binds to the ATP-binding site of the target kinase and prevents the transfer of phosphate from ATP to the tyrosine residues of various substrates. At oral doses of 300 mg or greater, the vast majority of patients with chronic myeloid leukaemia achieve a haematological response and this is usually associated with limited toxicity. Imatinib also has substantial activity in Philadelphia chromosome-positive acute lymphoblastic leukaemia expressing the BCR-ABL fusion protein. Gastrointestinal stromal tumours (GISTs) have also been evaluated for clinical activity of imatinib. About 90% of malignant GISTs harbour a mutation in c-kit leading to KIT receptor autophosphorylation and ligand-independent activation. According to initial clinical studies, more than 50% of GISTs respond to therapy within a few months, and only about 10-15% progress. The potential for cure and the optimal length of treatment are currently not known. Several other human cancers may over-express KIT or PDGF-R, and clinical trials to evaluate the role of imatinib in the treatment of such cancers are currently ongoing. Imatinib is an example of a specifically designed, highly targeted cancer therapy, which poses novel requirements for both pathology laboratories and clinicians in terms of identifying the major molecular mechanisms involved in tumour growth.
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PMID:Tyrosine kinase inhibitor imatinib (STI571) as an anticancer agent for solid tumours. 1168 Jul 92

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