Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0023473 (chronic myeloid leukemia)
18,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Chronic myelogenous leukemia (CML) is a human disease associated with a consistent chromosomal translocation that results in sequences from the c-abl locus on chromosome 9 being fused to sequences in a breakpoint cluster region (bcr) on chromosome 22. CML cells have two novel products: an 8.5-kilobase RNA transcript containing both abl and bcr and a 210-kilodalton phosphoprotein (P210) recognized by v-abl-specific antisera. To test whether the P210 is the product of the novel 8.5-kilobase bcr/abl fusion transcript, antibodies were prepared against c-abl and bcr determinants. By using these reagents and v-abl-specific antisera, it was demonstrated that the P210 in CML cells is indeed the protein product of the 8.5-kilobase transcript. By analogy to the gag/abl fusion protein of Abelson murine leukemia virus, the replacement of amino terminal c-abl sequences by bcr sequences in P210 may create a transforming protein involved in CML. A 190-kilodalton phosphoprotein that is a candidate for the normal bcr protein was identified in both HeLa and K562 cells.
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PMID:The chronic myelogenous leukemia-specific P210 protein is the product of the bcr/abl hybrid gene. 346 Jan 76

In chronic myelogenous leukemia (CML) the reciprocal translocation resulting in the Philadelphia chromosome (Ph1) leads to the formation of a chimeric transcriptional unit carrying both c-abl and bcr genetic information whose transcript is a new fused mRNA of 8.5-kilobases (kb) and whose translational product is a 210-kD phosphoprotein with tyrosine kinase activity implicated in the pathogenesis of CML. Twenty patients affected by Ph1-positive CML were studied by Southern blot analysis with bcr. Unexpectedly, in three Ph1-positive patients, the breakpoint of chromosome 22 was located neither inside the bcr region nor 5' to it. Northern blot analysis of the RNAs of two of these patients showed the absence of a detectable 8.5-kb chimeric mRNA. In the third patient a chimeric mRNA was detected by a c-abl cDNA probe but failed to hybridize with a bcr cDNA probe and showed very low hybridization levels with further 5' bcr cDNA probes. The possibility is raised that in CML a breakpoint outside bcr might either still allow the formation of a chimeric mRNA, possibly through alternative splicing mechanisms, or might prevent the transcription of the chimera. In the latter case different molecular events resulting in the formation of a Ph1 chromosome may underlie the same myeloid neoplastic phenotype.
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PMID:Philadelphia-positive chronic myeloid leukemia with a chromosome 22 breakpoint outside the breakpoint cluster region. 347 5

Hybrid cell lines were obtained after fusion of mouse myeloid cells (WEHI-TG) with leukocytes from two patients with chronic myeloid leukemia. A third fusion was carried out with leukocytes from a patient with acute lymphocytic leukemia. All three patients carried the Philadelphia chromosome (Ph1) in the leukemia cell population. Cytochemical analysis confirmed the myelo-monocytic nature of the hybrid cell lines. The presence of Ph1 translocation products could be established in most hybrids derived from the two chronic myeloid leukemic patients, which confirms that indeed human myeloid cells were fused. Several of these hybrid lines showed reactivity with monoclonal antibodies known to be specific for human myeloid cells, whereas interlineage Chinese hamster fibroblast-human chronic myeloid leukemia hybrids failed to react with these antibodies. Five independently obtained monoclonal antibodies--MI/NI, UJ-308, VIM-D5, FMC-10, and B4.3--showed very similar reactivity patterns when tested on the hybrid clones. This result substantiates the evidence obtained from other studies, that these five antibodies are directed against the same myeloid-associated antigen. The gene(s) for expression of the latter antigen could be assigned to human chromosome 11.
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PMID:Expression of human myeloid-associated surface antigens in human-mouse myeloid cell hybrids. 657 14

Thirty-five patients with Philadelphia chromosome (Ph1)-positive chronic myelogenous leukemia (CML) were classified on the basis of the fusion pattern of bcr-abl mRNA determined by the reverse-transcriptase-polymerase chain reaction (RT-PCR) method. Semiquantitative assay of the bcr exon 2/abl exon 2 fused mRNA (b2-a2) and bcr exon 3/abl exon 2 fused mRNA (b3-a2) resulted in 21 patients showing b3-a2 type mRNA, seven showing b2-a2 type and seven showing coexpression. Quantification of the autoradiographic signals of amplified products was estimated using an MCID image analysis system. The relative intensity was defined as the ratio of bcr-abl signal to that of beta-actin. The relationship between the semiquantified bcr-abl mRNA and the platelet/megakaryocyte counts was analyzed. A possible correlation was found between the semiquantified b3-a2 type mRNA and the platelet (p < .05, N = 28) and megakaryocyte (p < .05, N = 13) counts of these patients. This finding suggests the possibility that b3-a2 mRNA may affect the thrombopoietic activity in Ph1-positive CML in a dose-response manner.
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PMID:Possible correlation of b3-a2-type bcr-abl messenger RNA defined by semiquantitative RT-PCR to platelet and megakaryocyte counts in Philadelphia-positive chronic myelogenous leukemia. 752 Jul 86

Following retrospective screening of our karyotype data from 414 consecutive non-childhood, neoplastic, and preneoplastic hematologic diseases, we have isolated 11 cases with alterations involving one or two chromosome termini, including: a) nonclonal telomeric telomeric associations (tas), b) subclonal terminal rearrangements consisting of additional (add) material of unknown origin fused at the end of the chromosome, c) clonal telomere-centromere fusion (t telcen) with pseudodicentric structure. Most of these abnormalities were present in karyotypes with multiple alterations and associated to an evolutive stage of the disease (9 of 94 cases studied in progression, including three of 22 CML studied in blast crisis). The immunophenotype of the cell populations was lymphoid in eight cases, six of which were NHL, and myeloid, erythroid, and undifferentiated in the other three. More data on telomeric abnormalities may clarify whether there is ubiquitous genomic instability of neoplastic cells or an inborn cell lineage predisposition favoring rearrangements involving telomeres.
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PMID:Chromosome rearrangements at telomeric level in hematologic disorders. 755 81

We report the molecular cytogenetic analysis of a case of Philadelphia (Ph)-negative, BCR-positive chronic myeloid leukemia (CML) which appeared by conventional cytogenetics to have a t(6;9)(p23;q34) as the sole cytogenetic abnormality. Neither conventional nor pulse-field Southern blots detected any rearrangement of the DEK or CAN genes which are often fused in acute myeloid leukemia (AML) with t(6;9)(p23;q34). However, rearrangements of both BCR and ABL genes were detected. The breakpoint in BCR was located in the major translocation cluster region between exons b1 and b3. ABL rearrangements were detected with an ABL exon 1B probe and with a probe located 5' of the entire ABL gene. Comigration between the rearranged fragments obtained with M-bcr-5' and ABL exon 1B probes was observed, implying that the entire ABL gene was fused to the 5' part of the BCR gene. Fluorescence in situ hybridization (FISH) analyses using BCR and ABL probes showed that in 20% of metaphases BCR and ABL signals were present on one chromosome 6 at 6p23, whilst in 80% of metaphases BCR and ABL signals were identified on both copies of chromosome 6. Furthermore, FISH analysis with a whole-chromosome 22 paint demonstrated that chromosome 22 material was present on both copies of chromosome 6. These data indicate a complex Philadelphia translocation involving chromosome band 6p23 and duplication of the whole aberrant chromosome. The nature of the gene locus on 6p23, involved in this rearrangement, remains unknown. A similar translocation has been previously reported in a case of CML, which also lacked DEK and CAN gene rearrangements implying that abnormalities of 6p23 involving genes other than DEK may be a recurrent abnormality in CML.
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PMID:Molecular cytogenetics of chronic myeloid leukemia with atypical t(6;9) (p23;q34) translocation. 759 89

De novo methylation of CpG islands is a rare event in mammalian cells. It has been observed in the course of developmental processes, such as X chromosome inactivation and genomic imprinting. The methylation of DNA, an important factor in the epigenetic control of gene expression, may also be involved in tumorigenesis. After the t(9;22) chromosomal translocation and generation of the Philadelphia chromosome, the initiating event in chronic myelogenous leukemia (CML), most of the abl coding sequence is fused to the 5' region of the bcr gene. Expression of the hybrid bcr-abl gene is, therefore, regulated by the bcr promoter. In most cases of CML, one of the two abl promoters (Pa) is nested within the bcr-abl transcriptional unit and should be able to transcribe the type Ia 6-kb normal abl mRNA from the Philadelphia chromosome. However, we have found that the 6-kb transcript is present only in CML cell lines containing a normal abl allele and that the apparent inactivation of the nested Pa promoter is associated with allele-specific methylation. Furthermore, we have noticed that the Pa promoter is contained within a CpG island and undergoes progressive de novo methylation in the course of the disease. This is attested to by the fact that DNA samples from CML patients that are methylation-free at the time of diagnosis invariably become methylated in advanced CML. Since tumor progression in CML cannot always be inferred from the clinical presentation, assessment of de novo CpG methylation may prove to be of critical value in management of the disease. It could herald blastic transformation at a stage when bone marrow transplantation, the only potentially curative therapeutic procedure in CML, is still effective.
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PMID:Progressive de novo DNA methylation at the bcr-abl locus in the course of chronic myelogenous leukemia. 793 18

We report the independent isolation of a rearranged FGF-4 gene from a patient with chronic myeloid leukaemia. We show that the FGF-4 gene has been truncated 30 nucleotides 3' to the coding sequence and has been fused to the RNA processing signals from a putative unknown gene on chromosome 15. We demonstrate that the promoter region of the FGF-4 gene is active in NIH3T3 cells and is indeed necessary for transformation. Using the luciferase reporter assay we have shown that the FGF-4 5' flanking sequences possess easily detectable promoter activity in both F9 and HeLa cell lines. 5' deletion analysis of the FGF-4 promoter has delineated regions containing cis-acting elements of functional importance. These regulatory regions are common to both embryonal and somatic cell lines. Electrophoretic mobility shift assay, using nuclear extracts from F9 and HeLa cells, has allowed detection of DNA-protein interactions occurring in the functionally significant regions. Subsequent comparison of the human and murine FGF-4 promoters show that the regions of functional significance are highly conserved. We suggest that the FGF-4 gene may be suppressed through a distal suppressor locus and becomes active when separated from this suppressor.
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PMID:The FGF-4 promoter is required for transformation and is active in both embryonal and somatic cells. 799 85

Many haematologic malignancies carry characteristic chromosomal translocations, which are thought to play an important role in the pathogenesis of these tumours. The t(8; 14) translocation in Burkitt's lymphoma was one of the first characterized at the molecular level. In this translocation the c-myc oncogene at chromosome 8q24 becomes deregulated by enhancer elements of the immunoglobulin heavy chain locus at chromosome 14q32 leading to a very aggressive B cell malignancy. Translocations involving an overexpressed c-myc gene are also found in AIDS-associated lymphoma or in T cell leukaemias, or they develop during tumour progression of a low grade B cell malignancy into a high grade B cell tumour in an additional cytogenetic change. A different mechanism of oncogene activation in a leukaemia specific chromosomal abnormality is found for CML, where c-abl sequences are fused into the bcr locus, or in the t(4; 11) of acute childhood leukaemia involving the recently identified ALL-1 gene at chromosome 11q23 resulting in a malfunctioning, structurally altered oncogene. Thus, in the past molecular and somatic cell genetic studies have clarified many details in aetiology and progression of leukaemias and lymphomas which are useful for applications in clinical diagnostics, and which in the future will be helpful in designing a therapy based on a molecular understanding.
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PMID:Chromosomal translocations in leukaemia. 814 18

Chronic myelogenous leukemia (CML) is a myeloproliferative disorder associated with the Philadelphia chromosome (Ph1) in more than 95% of these patients. The Ph1 and the resulting BCR-ABL fused genes are markers for this type of leukemia. In CML, the product of the fused BCR-ABL gene is typically a protein of approximately 2,000 amino acids termed P210 BCR-ABL. We have developed an assay for the BCR-ABL protein involving Western blotting of circulating white blood cells (WBC) with an anti-ABL monoclonal antibody that can detect P210 BCR-ABL and P145 ABL in peripheral blood cells from chronic phase Ph1-positive leukemia patients. This assay was used to analyze the BCR-ABL protein content of circulating WBC from CML patients before and after various treatments. In parallel to changes in percentages of Ph1-positive blood cells as determined by cytogenetic analyses of bone marrow samples, BCR-ABL protein expression in blood cells decreased or increased as patients entered remission or underwent relapse. Of interest, six Ph1-negative CML patients were BCR-ABL protein-positive. All except one had a rearrangement in the major breakpoint cluster region and that patient expressed P185 BCR-ABL and not P210. Our results indicate that the BCR-ABL Western blotting assay has clinical applications for both diagnosis and prospective evaluation of Ph1-positive and Ph1-negative CML patients.
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PMID:BCR-ABL protein expression in peripheral blood cells of chronic myelogenous leukemia patients undergoing therapy. 820 87


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