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)

Overwhelming evidence indicates a role for the deregulated ABL protein tyrosine kinase in the aetiology of CML and Ph-positive acute leukaemia. These disorders are characterized by the generation of BCR/ABL fusion proteins with elevated tyrosine kinase activity. Although much is known concerning the transforming potential of ABL proteins in various systems, very little is understood of the normal function and mode of regulation of ABL activity. The mechanism of oncogenic activation is therefore also obscure. In spite of this, our understanding of the molecular details of these chromosomal translocations allows the design of therapies directed against their unique, leukaemia-specific proteins and RNA products.
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PMID:Philadelphia chromosome-positive leukaemia: the translocated genes and their gene products. 130 69

The negative impact of donor marrow T lymphocyte depletion on relapse of chronic myeloid leukaemia (CML) following bone marrow transplantation strongly suggests that the leukaemia is particularly susceptible to immune regulation. The immune response to CML may be mediated by major histocompatibility (MHC) locus unrestricted natural killer and lymphokine activated killer cells, or by MHC-restricted CD4 and CD8 lymphocytes. Interaction with the leukaemia is both by direct cell-contact cytotoxicity, and indirectly via cytokines and growth factors. T4 and T8 lymphocytes recognize a spectrum of minor histocompatibility antigens on the leukaemia cell which may be non-specific, leading to graft-versus-leukaemia and graft-versus-host reactions, or present only on myeloid cells leading to a tissue restricted response. The possibility that the P210 protein derived from the BCR/ABL fusion gene on chromosome 22 leads to the presentation via MHC molecules of leukaemia-specific peptide antigens is currently under investigation. Developments in understanding the immune response to CML open up the possibility of developing leukaemia-specific immunotherapy strategies.
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PMID:Immune responses to chronic myeloid leukaemia. 161 13

A 36-year-old woman was referred to our hospital because of splenomegaly in February 1989. The leukocyte count was 55,500/microliter without hiatus leukemicus. The leukocyte alkaline phosphatase score was low (29). The bone marrow showed myeloid hyperplasia (24.8% myeloblasts) but no dysplastic change. The karyotype of the bone marrow cells was 46, XX and a diagnosis of Ph1 (-) CML was made. Treatment with VCR, 6MP and prednisolone made 7-month duration chronic phase, but the abnormal karyotype.[46, XX, i(17q)] gradually increased to 100% of bone marrow cells. The patient died in June 1990. The evidence that not only a BCR rearrangement but also messages of BCR/ABL fusion gene were negative made us able to differentiate this case from Ph1(-), BCR(+) CML. The addition of an i(17q) results in partial monosomy of 17q (17q13;p53 gene) and partial trisomy of 17q (17q11.2-12;G-CSF gene). We examined the rearrangement of p53 gene and G-CSF-dependent tumor cell growth in vitro, demonstrating one allelic loss of p53 gene and independent cell growth on G-CSF respectively. It is thought that in Ph1 (-), BCR (-) CML as well as in Ph1 (+) CML, an i(17q) is related to the progression but not to the initiation of these leukemias. However the precise mechanism, including p53 gene inactivation by point mutation, is still to be elucidated.
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PMID:[i(17q) appearing in acute phase in Ph1-negative, BCR-negative CML]. 163 23

The translocation between chromosome 9 and chromosome 22 which creates the Philadelphia chromosome moves the ABL oncogene from its normal location on chromosome 9 and fuses it with a portion of the BCR gene on chromosome 22. This new BCR/ABL fusion gene generates a unique 8.7 kilobase (kb) RNA which codes for a new 210 kilodalton (kd, p210) protein which has a protein tyrosine kinase activity that is greatly increased in comparison to the normal ABL protein. The human K562 cell line was derived from a patient with CML, and serves as one model for the regulation of expression of the ABL and BCR/ABL genes. This study examines the expression of the BCR/ABL fusion gene and the normal ABL gene in relation to differentiation and changes in proliferative state. The expression of both the normal ABL transcripts and the BCR/ABL fusion transcript decrease approximately ten-fold when the cells are induced to differentiate with hemin. In contrast, expression of the MYC oncogene is unaffected by hemin-induced differentiation. The results suggest that both ABL and BCR/ABL expression vary in proportion to the differentiation of the cells, but minimally if at all as a function of the cells' proliferative state.
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PMID:ABL oncogene expression during erythroleukemia cell differentiation. 199 45

In the great majority of patients with chronic myelogenous leukemia (CML) the reciprocal translocation between chromosomes 9 and 22, t(9;22)(q34;q11), resulting in the Philadelphia (Ph) chromosome produces fusion DNA sequences consisting of the 5' part of the major breakpoint cluster region-1 (M-BCR-1) and the ABL protooncogene which encodes for the P210BCR-ABL phosphoprotein with tyrosine kinase activity implicated in the pathogenesis of CML. Molecular analysis was performed on 25 patients with Ph-positive CML using 2 breakpoint cluster region (bcr) probes within the M-BCR-1 DNA sequences, and two of them did not contain either detectable rearranged DNA homologous to the 5' side bcr probe or ABL-related fusion mRNA. The chromosomal in situ hybridization technique revealed that these two Ph-positive CML cases did not carry DNAs homologous to the 5' bcr or ABL probes on the Ph chromosome. Furthermore, one of the two Ph-positive CML cases did not show either rearranged DNA or regions homologous to the 3' bcr probe on a 9q+ chromosome, while the other CML case showed a rearrangement detected by the 3' bcr probe and transposition of the 3' bcr homologous to the 9q+ chromosome. Thus, the possibility is raised that the BCR/ABL fusion DNA has been deleted in rare CML cases, and that the deletion possibly occurred in a stepwise manner following the formation of the Ph chromosome at any stage of the disease.
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PMID:Philadelphia chromosome-positive chronic myelogenous leukemia with deleted fusion of BCR and ABL genes. 215 92

In order to study which hemopoietic precursor cells express the hybrid BCR/ABL fusion mRNA we have developed a technique based on the polymerase chain reaction (PCR) for the examination of single hemopoietic colonies grown on semi-solid agar. The technique was developed by examining single CFU-GM colonies grown from newly diagnosed patients with chronic myeloid leukaemia (CML). RNA was isolated from individual 14 day colonies and reverse transcribed to a complementary DNA (cDNA) copy which formed the substrate for a PCR. We have studied 3 cases of CML using this method and have found that 5 out of 5, 9 out of 10 and 20 out of 23 colonies examined were positive. Thus we describe a simple and useful technique for the study of gene expression in a limited number of hemopoietic precursor cells.
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PMID:Detection of the hybrid BCR/ABL messenger RNA in single CFU-GM colonies using the polymerase chain reaction. 220 69

Three major types of mRNA can be expressed as a result of the Philadelphia translocation, dependent on the position of the break within the BCR gene on chromosome 22. In addition, alternative splicing of the mRNA transcribed from the BCR/ABL fusion gene has been reported and it has been suggested that this may play a role in the generation of the acute phase of Philadelphia positive chronic myeloid leukaemia (CML). We have examined the fusion RNA present in 24 cases of chronic phase CML and 21 cases of patients with CML in blast crisis using the polymerase chain reaction. In no case was it possible to detect the presence of the e1a2 junction which encodes the p190 hybrid protein product. We conclude that the acquisition of the p190 does not play a significant role in the generation of the blast crisis of CML. Neither could we detect a significant difference in the number of cases which simultaneously express both b2a2 and b3a2 junction products in samples isolated from chronic phase and blast crisis. In the series analysed by ethidium bromide stained gels, there was, however, an increase in the percentage of cases expressing the b3a2 junction in the mononuclear cells of blast crisis patients as compared to the white blood cells of patients in chronic phase.
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PMID:The role of alternative splicing patterns of BCR/ABL transcripts in the generation of the blast crisis of chronic myeloid leukaemia. 222 46

Chronic myelogenous leukemia (CML) is characterized by the presence of a novel fusion gene comprised of portions of the BCR gene from chromosome (ch) 22 and the ABL gene from ch 9. The present study was designed to identify regulatory DNA regions as determined by DNAase I hypersensitivity to address the question of whether altered chromatin contributes to changes in ABL expression. We identify five hypersensitive (HS) sites within the abnormal BCR/ABL allele in K562 cells in a pattern different from the normal BCR. The pattern of hypersensitivity is modified when the cells undergo hemin induced differentiation. These results indicate that the normal BCR has a chromatin configuration consistent with active transcription and that the BCR/ABL fusion gene chromatin is different. This may be important in the pathogenesis of CML.
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PMID:Chromatin alterations surrounding the BCR/ABL fusion gene in K562 cells. 226 34

We report the sublocalization of the breakpoint in chromosome 22 in 33 patients with chronic myeloid leukemia (CML) who also had unusual marrow cytogenetics. In 23 patients, the leukemic clones were characterized by Philadelphia (Ph1) chromosomes that arose through complex translocations that involved three or more chromosomes. In the remaining ten patients, there were no detectable Ph1 chromosomes despite molecular evidence for the presence of rearrangements in the major breakpoint cluster region (bcr) of chromosome 22 in all cases. There was no significant difference between the two groups with respect to location of the breakpoints within the bcr. When these two groups of patients were combined, there was a significant excess of breakpoints in one segment of the bcr when compared to the distribution of breakpoints seen in 119 patients with simple 9;22 translocations. The difference in breakpoint distributions did not appear to be entirely attributable to differences between groups in disease duration at the time of study. These data support the notion that the unusual genetic recombinations that give rise to BCR/ABL fusion genes in CML involve specific DNA sequences of BCR (and possibly ABL) and additional, recombinogenic sequences, at least some of which are present in loci known to be nonrandomly involved in complex Ph1 translocations.
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PMID:Location of breakpoints within the major breakpoint cluster region (bcr) in 33 patients with bcr rearrangement-positive chronic myeloid leukemia (CML) with complex or absent Philadelphia chromosomes. 248 42

A reciprocal translocation, t(10;22)(q22;q11), resulting in a masked Ph chromosome was identified in a patient diagnosed with chronic myeloid leukemia (CML). Both homologs of chromosome 9 were of the normal pattern. Two signals for the ABL probe, both of them hybridized to chromosome 9, were demonstrated via fluorescence in situ hybridization (FISH). Furthermore, cohybridization with two differently labeled BCR/ABL translocation DNA probes indicated a BCR/ABL fusion apparently located on 9q34. Molecular studies revealed a rearrangement of the BCR region and expression of a chimeric BCR/ABL mRNA of CML configuration. These findings indicate that the BCR/ABL fusion resulted from an unusual relocation of the BCR gene from its normal position on 22q11 to 9q34 adjacent to the ABL gene.
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PMID:BCR/ABL fusion located on chromosome 9 in chronic myeloid leukemia with a masked Ph chromosome. 754 8

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