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)

The cytogenetic hallmark of chronic myelogenous leukemia (CML) is the Philadelphia chromosome (Ph1), which reflects a chromosomal translocation t(9;22) and a rearrangement of the ABL and bcr genes. This marker is found in all cells arising from the same malignant precursor cell and can be detected in CML cells of the myeloid, monocytic, erythroid, and B-lymphocyte lineage. It is, however, controversial as to whether T lymphocytes of CML patients carry this gene rearrangement. An answer to this question would clarify whether the translocation in CML occurs in a pluripotent hematopoietic stem cell or in a precursor cell already committed to certain lineages, but not the T-cell lineage. To address this question, we established T-cell clones from peripheral venous blood cells of four patients with CML and screened these clones for bcr-abl fusion transcripts by means of polymerase chain reaction and Southern blot analysis. In four T-cell clones of three of these patients, the bcr-abl transcript could be detected. None of 12 T-cell clones of the fourth patient disclosed detectable bcr-abl amplification product. Both CD4+ as well as CD8+ clones displayed fused bcr-abl sequences. These data imply that in CML some but not all T lymphocytes may originate from the Ph1-positive stem cell.
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PMID:Clonal analysis of bcr-abl rearrangement in T lymphocytes from patients with chronic myelogenous leukemia. 137 Oct 78

Three patients had marked marrow fibrosis and an apparent Philadelphia (Ph) chromosome. Hematologic, cytogenetic, and molecular studies demonstrated the heterogeneity of such cases, including the first example of clinically typical myelofibrosis (MF) associated with a bcr gene rearrangement characteristic of chronic myelogenous leukemia (CML).
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PMID:Marrow fibrosis associated with a Philadelphia chromosome. 137 40

Expression of the bcr-abl oncogene in multipotent progenitor cells (MPPCs) is implicated as a key event in the development of chronic myelogenous leukemia. Bone marrow enriched for MPPCs was infected with a retrovirus that carried bcr-abl. The mixed-lineage colonies that resulted were responsive to growth factors and could differentiate. These cells later became growth factor-independent but, when injected into severe combined immunodeficient mice, were not leukemogenic. Thus, the presence of bcr-abl alone does not cause growth factor independence, although it initiates a stepwise process. This system may prove useful in the study of other oncogenes that cause leukemia.
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PMID:Initiation of deregulated growth of multipotent progenitor cells by bcr-abl in vitro. 137 94

We performed molecular studies to resolve the status of BCR and ABL in the bone marrow cells of a CML patient with a Ph chromosome resulting from a complex translocation involving chromosomes 9, 15, and 22. DNA digestion with BamHI, HindIII, and BglII, followed by hybridization to a bcr-specific 32P-labeled probe, showed a rearranged banding pattern confirming the involvement of the bcr locus in the translocation. Furthermore, total cellular RNA isolated from the marrow was subjected to reverse transcription into cDNA and amplified by PCR with primers specific for BCR-ABL fusion cDNA. The amplified products obtained from this patient and from a CML patient with the standard t(9;22) were both of the expected length of approximately 317 bp.
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PMID:Molecular confirmation of BCR-ABL fusion in a chronic myeloid leukemia with a complex translocation involving chromosomes 9, 15, and 22. 137 43

The authors report a rare case of chronic myelogenous leukemia (CML) in which the Ph1 clone disappeared after remission induction of lymphoid crisis. A 58-year-old man was admitted to our hospital because of fever in July 1988. The white cell count was elevated. Bone marrow aspirate showed hypercellularity with myeloid hyperplasia. In the chromosomal analysis, Ph1 chromosomes were detected in 100% of bone marrow cells analysed. Diagnosis of CML was made and treatment was initiated with recombinant interferon-alpha 2a. Hematological remission without cytogenetic improvement was achieved. In March 1990 he developed lymphoid crisis with proliferation of CD10-positive cells. The chromosomal analysis revealed additional abnormalities including, 45, X, -Y, t(9;22) (q34;q11), +1, -8. With vincristine 0.6 mgX4, pirarubicin 15 mgX4, dexamethasone 40 mgX4 therapy complete remission was obtained. In December 1990 the Ph1 positive clone completely disappeared judging from normal karyotypes in the chromosomal analysis and the disappearance of M-bcr gene rearrangement.
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PMID:[Disappearance of Philadelphia chromosomes after remission induction in lymphoid crisis of chronic myelogenous leukemia]. 143 45

We studied the type of bcr-abl mRNA for 34 patients with chronic myelogenous leukemia and analyzed for correlations among the mRNA type, the clinical outcome and the transforming activity using the tumorigenicity assay. There was no difference in the distribution of the mRNA-types (b2-a2 and b3-a2) between clinical phases. We found no correlation between the two types of bcr-abl mRNA and the chronic phase duration or survival. The DNA from 12 of 20 chronic phase patients and all five blastic phase patients showed transforming activity. Although there was no difference in the positive rate of transforming activity among the two mRNA-type groups, the blastic phase patients showed a tendency to have higher transforming activity.
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PMID:Relationship of the type of bcr-abl hybrid mRNA to clinical course and transforming activity in Philadelphia-positive chronic myelogenous leukemia. 143 43

The reciprocal translocation between chromosome 9 and chromosome 22, as observed in chronic myeloid leukemia (CML) as well as in acute lymphoblastic leukemia (ALL), results in a 22q- chromosome, the so-called Philadelphia chromosome. The translocation event creates on the Philadelphia chromosome a fusion between two genes: bcr and abl. Depending on the localization of the breakpoint in the bcr gene different chimeric bcr-abl genes are generated, each encoding their own tumor-specific protein: e1-a2P190bcr-abl, b2-a2p210bcr-abl, or b3-a2P210bcr-abl. Especially in ALL, the presence of such a tumor-specific protein is highly associated with a poor prognosis. Detection of these proteins therefore has a strong clinical significance. In this study a polyclonal antiserum, termed BP-2, was raised against a synthetic peptide, corresponding to the tumor-specific 'fusion-point' epitope of the b3-a2P210bcr-abl protein. The specificity of BP-2 for the bcr-abl joining region in b3-a2P210bcr-abl is demonstrated by means of peptide inhibition studies in combination with immunoprecipitation. In addition we show the reactivity of BP-2 with bcr-abl proteins in leukemic cells of a Philadelphia-chromosome-positive ALL patient.
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PMID:Antibody recognition of the tumor-specific b3-a2 junction of bcr-abl chimeric proteins in Philadelphia-chromosome-positive leukemias. 143 92

The observation made over 30 years ago that the Philadelphia chromosome is present in nearly all patients with CML led to the identification of a novel fusion gene bcr-abl. In the past few years, the biochemical and biological properties of bcr-abl have been extensively explored. Bcr sequences appear to activate c-abl for transformation by binding to the SH2 domain of c-abl in an intramolecular interaction, presumably interfering with the adjacent SH3 regulatory domain. Upon introduction into bone marrow cells, bcr-abl can cause acute or chronic leukaemias in mice and can stimulate the growth of many cell types, including multipotent stem cells, in vitro. Although their growth is stimulated, these cells are not fully malignant blastic leukaemias. The molecular events that occur during the progression to blast crisis of CML remain largely undefined, but existing animal models and in vitro culture systems will be useful for identifying or testing candidate genes. The study of tyrosine kinase oncogenes in general will probably lead to the identification of relevant bcr-abl substrates. The elucidation of these molecules as well as more downstream events in the bcr-abl signalling pathway offers the hope for novel therapeutic interventions to control Philadelphia chromosome leukaemias.
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PMID:The bcr-abl gene in chronic myelogenous leukaemia. 145 Nov 13

Herbimycin A, a benzoquinoid ansamycin antibiotic, was demonstrated to decrease intracellular phosphorylation by protein tyrosine kinase (PTK). In Philadelphia chromosome (Ph1)-positive leukemias such as chronic myelogenous leukemia (CML) and Ph1-positive acute lymphoblastic leukemia (ALL), both of which express bcr-abl fused gene products (P210bcr-abl or P190bcr-abl protein kinase) with augmented tyrosine kinase activities, herbimycin A markedly inhibited the in vitro growth of the Ph1-positive ALL cells and the leukemic cells derived from CML blast crisis. However, the same dose of herbimycin A did not inhibit in vitro growth of a broad spectrum of Ph1-negative human leukemia cells, and several other protein kinase antagonists also displayed no preferential inhibition. Furthermore, we demonstrated that herbimycin A has an antagonizing effect on the growth of transformed cells by a transfection of retroviral amphotrophic vector expressing P210bcr/abl into a murine interleukin (IL)-3-dependent myeloid FDC-P2 cell line. This inhibition was abrogated by the addition of sulfhydryl compounds, similar to the reaction previously described for Rous sarcoma virus transformation. The inhibitory effect of herbimycin A on the growth of Ph1-positive cells was associated with decreased bcr/abl tyrosine kinase activity, but no decrease of bcr-abl mRNA and protein, suggesting that the inactivation of bcr-abl tyrosine kinase activity by herbimycin A may be induced by its binding to the bcr-abl protein portion that is rich with sulfhydryl groups. The present study indicates that herbimycin A is a beneficial agent for the investigation of the role of the bcr-abl gene in Ph1-positive leukemias and further suggests that the development of agents inhibiting the bcr-abl gene product may offer a new therapeutic potential for Ph1-positive leukemias.
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PMID:Effect of herbimycin A, an antagonist of tyrosine kinase, on bcr/abl oncoprotein-associated cell proliferations: abrogative effect on the transformation of murine hematopoietic cells by transfection of a retroviral vector expressing oncoprotein P210bcr/abl and preferential inhibition on Ph1-positive leukemia cell growth. 151 46

The Philadelphia chromosome (Ph1) was the first genetic change to be associated consistently with leukemia, and it is one of the best understood on the molecular level. Because of this, it is an excellent model to investigate the application of molecular techniques to the clinical setting. These techniques are reviewed as are their clinical use in chronic myelogenous leukemia (CML), acute lymphoblastic leukemia (ALL), and transplantation. The Ph1 is caused by the fusion of two genes on chromosomes 9 and 22, resulting in the BCR-ABL fusion gene. This new gene is believed to be the cause of these Ph1-positive leukemias. The ability to detect the BCR-ABL fusion gene evolved from cytogenetic detection to Southern blot analysis, and now includes sophisticated techniques such as polymerase chain reaction (PCR) methods and pulsed-field gels. Diagnosis of the BCR-ABL fusion gene by Southern blot detection of bcr genetic rearrangements is the prototype of molecular cancer diagnosis. The sensitivity and clinical uses of this test are reviewed, especially its application to monitoring the response to treatment. PCR methods enable the researcher to detect 1 CML cell in a population of 10(5) cells. Clinical experience with PCR, especially in transplantation medicine, is providing a better understanding of the meaning of the terms "remission" and "cure." Newer techniques using fluorescent in situ hybridization have considerable potential for BCR-ABL detection, but no clinical experience has been gained with these techniques currently. The diagnosis of the BCR-ABL fusion gene in ALL has important clinical implications because it is the most common molecular genetic change in adult ALL and is associated with short remissions and poor outcome in all age groups. Diagnosis of the BCR-ABL fusion in ALL is difficult because the molecular findings are more heterogeneous than they are in CML. The methods available and their accuracy and sensitivity are compared. A review of their clinical impact is included.
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PMID:The role of molecular techniques in the clinical management of leukemia. Lessons from the Philadelphia chromosome. 151 23

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