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)

Two leukemia cell lines, TS9;22 and YS9;22, were established from different individuals with Philadelphia chromosome (Ph)-positive chronic myeloid leukemia in blast crisis. The reverse transcript-polymerase chain reaction (RT-PCR) technique revealed that both cell lines expressed GATA-1, GATA-2, and the stem cell leukemia (SCL) gene, consistent with a megakaryocyte lineage. Chromosome analysis revealed that TS9;22 cells show the Ph translocation without abnormality of chromosome 3. In contrast, YS9;22 cells show the Ph translocation and dic(3)(q26;p12). Northern analysis revealed that YS9;22 cells express the EVI1 (ecotropic virus integration-1) gene, possibly because of the chromosomal translocation in the 3q26 region; TS9;22 cells do not express EVI1. However, no rearrangements were detected over 600 kb upstream or over 900 kb downstream of EVI1 in the YS9;22 cell line, suggesting a different mechanism of EVI1 activation from that in leukemia cells with either a t(3;3)(q21;q26) or inv(3)(q21q26). These results indicate that EVI1 expression in YS9;22 cells is linked to the 3q26 abnormality and that EVI1 activation plays an oncogenic role in the blastic transformation of chronic myeloid leukemia.
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PMID:EVI1 expression associated with a 3q26 anomaly in a leukemia cell line derived from the blast crisis of chronic myeloid leukemia. 780 6

Two genes have been implicated in leukemias of patients with abnormalities of chromosome 3, band q26: EVI1, which can be activated over long distances by chromosomal rearrangements involving 3q26, and EAP, a ribosomal gene that fuses with AML1 in a therapy-related myelodysplasia patient with a t(3;21)(q26.2;q22). AML1 was identified by its involvement in the t(8;21)(q22;q22) of acute myeloid leukemia. Here we report the consistent identification of fusion transcripts between AML1 and EAP or between AML1 and previously unidentified sequences that we named MDS1 (MDS-associated sequences) in the leukemic cells of four patients with therapy-related myelodysplasia/acute myeloid leukemia and in one patient with chronic myelogenous leukemia in blast crisis, all of whom had a t(3;21). In addition, we have identified a third chimeric transcript, AML1/EVI1, in one of the therapy-related acute myeloid leukemia patients. Pulsed-field gel electrophoresis established the order of the genes as EAP, the most telomeric, and EVI1, the most centromeric, gene. The results indicate that translocations could involve multiple genes and affect gene expression over long distances.
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PMID:Consistent intergenic splicing and production of multiple transcripts between AML1 at 21q22 and unrelated genes at 3q26 in (3;21)(q26;q22) translocations. 817 Oct 26

The EVI1 gene encodes a nuclear, zinc finger, DNA binding protein expressed after provirus insertion into the Fim-3 or EVI1 loci in murine leukemia myeloid cells. EVI1 is also expressed by cells from AML patients with chromosome rearrangements involving band 3q26, the putative location of the EVI1 gene, but expression of this gene is not detected in normal bone marrow. We report expression of EVI1 by cells from a patient with chronic myelogenous leukemia in blast crisis (CML/BC) whose cells showed inv(3)(q22q26). In vitro culture of these cells resulted in macrophage differentiation and loss of EVI1 expression. Results in this patient suggest EVI1 expression played a role in CML blast transformation. Patients with CML/BC and other nonrandom chromosome abnormalities involving chromosome 3q26 should be evaluated for EVI1 expression.
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PMID:Expression of the EVI1 gene in chronic myelogenous leukemia in blast crisis. 841 28

The (3;21)(q26;q22) translocation associated with treatment-related myelodysplastic syndrome, treatment-related acute myeloid leukemia, and blast crisis of chronic myeloid leukemia results in the expression of the chimeric genes AML1/EAP, AML1/MDS1, and AML1/EVI1. AML1 (CBFA2), which codes for the alpha subunit of the heterodimeric transcription factor CBF, is also involved in the t(8;21), and the gene coding for the beta subunit (CBFB) is involved in the inv(16). These are two of the most common recurring chromosomal rearrangements in acute myeloid leukemia. CBF corresponds to the murine Pebp2 factor, and CBF binding sites are found in a number of eukaryotic and viral enhancers and promoters. We studied the effects of AML1/EAP and AML1/MDS1 at the AML1 binding site of the CSF1R (macrophage-colony-stimulating factor receptor gene) promoter by using reporter gene assays, and we analyzed the consequences of the expression of both chimeric proteins in an embryonic rat fibroblast cell line (Rat1A) in culture and after injection into athymic nude mice. Unlike AML1, which is an activator of the CSF1R promoter, the chimeric proteins did not transactivate the CSF1R promoter site but acted as inhibitors of AML1 (CBFA2). AML1/EAP and AML1/MDS1 expressed in adherent Rat1A cells decreased contact inhibition of growth, and expression of AML1/MDS1 was associated with acquisition of the ability to grow in suspension culture. Expression of AML1/MDS1 increased the tumorigenicity of Rat1A cells injected into athymic nude mice, whereas AML1/EAP expression prevented tumor growth. These results suggest that expression of AML1/EAP and AML1/MDS1 can interfere with normal AML1 function, and that AML1/MDS1 has tumor-promoting properties in an embryonic rat fibroblast cell line.
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PMID:The chimeric genes AML1/MDS1 and AML1/EAP inhibit AML1B activation at the CSF1R promoter, but only AML1/MDS1 has tumor-promoter properties. 857 11

t(3;21)(q26;q22) is a recurrent chromosomal abnormality in Philadelphia-positive chronic myeloid leukaemia in blast crisis and in treatment-related myelodysplastic syndrome and acute myeloid leukaemia. The molecular consequences of the t(3;21) are presently being unravelled; various transcripts between the AML1 gene in 21q22 and several unrelated genes, i.e. EAP, EVI1 and MDS1, in 3q26 are generated, resulting in the formation of a chimaeric transcription factor. The t(3;21) has only rarely been described in de novo leukaemias and never before in an acute leukaemia in a child. We here present the clinical, cytogenetic and molecular genetic findings in a boy with a de novo acute monoblastic leukaemia with t(3;21)(q26;q22) and AML1 rearrangement.
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PMID:t(3;21)(q26;q22) with AML1 rearrangement in a de novo childhood acute monoblastic leukaemia. 860 12

Chronic myeloid leukaemia (CML) is characterized cytogenetically by a t(9;22)(q34;ql1) reciprocal translocation which gives origin to a hybrid BCR-ABL gene, encoding a p2lO(BCR-ABL) fusion protein with elevated tyrosine kinase activity and transforming abilities. The t(9;22) was suggested to be associated with genomic imprinting of centromeric regions of chromosomes 9 and 22, but the genes directly affected by the translocation, ABL and BCR, were shown not to be imprinted. For most diagnostic and research purposes the BCR-ABL gene can be efficiently identified by reverse-transcription and polymerase chain reaction (RT/PCR) amplification of its fusion transcripts, which can be quantified by competitive PCR and similar assays for assessment of residual disease in the follow-up of therapy. In the great majority of CML patients the BCR-ABL transcripts exhibit a b2a2 and/or a b3a2 junction; in rare cases, the only detectable BCR-ABL transcripts have unusual junctions, such as b2a3, b3a3, e1a2 or e6a2. There is a recent suggestion that the BCR-ABL gene may not be always 'functional', since extremely low levels of BCR-ABL transcripts can be found in leucocytes from normal individuals and, conversely, it appears that no BCR-ABL transcription can be detected in a proportion of Ph-positive haematopoietic progenitors from some CML patients. The role, if any, of the reciprocal ABL-BCR hybrid gene in CML is unknown. Although its mRNA message is in frame, no ABL-BCR fusion protein has yet been identified in CML patients. The blast crisis of CML has been variably associated with abnormalities of proto-oncogenes, such as RAS and MYC, or of tumour suppressor genes, in particular RB, p53 and p16, or with the generation of chimeric transcription factors, as in the AML1-EVI1 gene fusion. It is likely, therefore, that multiple and alternative molecular defects, as opposed to a single universal mechanism, underlie the acute transformation of the disease.
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PMID:The molecular biology of chronic myeloid leukaemia. 865 67

We have identified a new recurrent reciprocal translocation between chromosome 3 and 12 with breakpoints at bands 3q26 and 12p13, t(3;12)(q26;p13) in the malignant cells from five patients with acute transformation of myelodysplastic syndrome or blast crisis of chronic myelogenous leukemia. t(3;12)(q26;p13) appears as a rare but nonrandom event present in various myeloid leukemia subtypes, which is frequently associated with dysplasia of megakaryocytes, multilineage involvement, short duration of any blastic phase, and a very poor prognosis. Here, we report the molecular cytogenetic analysis of the t(3;12). Fluorescence in situ hybridization results indicate that the 3q26 breakpoints are quite heterogeneous and occur 5' of MDS1, 3' of EVI1, or between MDS1 and EVI1. Our results are very similar to those observed in other 3q26 rearrangements in which breakpoints were shown to occur over considerable distances 5' and 3' of EVI1. Fluorescence in situ hybridization investigations proved that, in three myelodysplastic syndrome cases with t(3;12)(q26;p13), the 12p 13 breakpoint occurred within the TEL gene.
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PMID:Fluorescence in situ hybridization analysis of t(3; 12)(q26; p13): a recurring chromosomal abnormality involving the TEL gene (ETV6) in myelodysplastic syndromes. 869 16

We have previously shown that the EVI1 gene at chromosome 3q26 is transcriptionally activated by chromosomal rearrangements in acute myelogenous leukemias (AMLs) with inv(3)(q21q26) or t(3;3)(q21;q26). The breakpoints in t(3;3) cases were 15 to 330 kb upstream of the EVI1 gene, while those in inv(3) cases were 150 to 200 kb downstream and outside of the EVI1 coding region. The EVI1 gene is also activated in chronic myelogenous leukemia-blastic crisis (CML-BC) with inv(3)(q21q26); however, the molecular mechanism of EVI1 activation in CML-BC is still unclear. In this paper, we have analyzed chromosomal rearrangements in two leukemia cell lines derived from CML-BC with inv(3)(q21q26) and have identified the breakpoints within the EVI1 coding area. The EVI1 gene spans over 100 kb with 12 exons (10 coding exons), and the chromosomal breakpoints are clustered in the intron region before the last coding exon (exon 12). The nucleotide sequence of EVI1 cDNA clones from MOLM-1 cells was truncated at exon 11, and a novel sequence of 681 nucleotides was added at the 3' end of the EVI1 transcripts. The novel sequence was derived from a readthrough intron sequence 3' to the coding exon 11 adjacent to the breakpoint. The breakpoints at 3q21 were within the breakpoint cluster area downstream of the ribophorin I gene, suggesting that the activation mechanism of the EVI1 gene in CMLs with inv(3) is the same as that in AMLs with inv(3). These results indicate that expression of a truncated EVI1 gene is an important factor in the progression of CML.
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PMID:Identification of translocational breakpoints within the intron region before the last coding exon (exon 12) of the EVI1 gene in two cases of CML-BC with inv(3)(q21q26). 919 61

A 74-year-old woman had myelodysplastic syndrome (MDS) in 1986. In June 1994, she suffered exacerbation of pancytopenia with no chromosomal abnormalities, but AML1/EVI1 chimeric mRNA was detected by RT-PCR. Two months later, an increase in bone marrow blasts (5%) was noted, and chromosomal analysis detected t(3 ; 21) (q26 ; 22), del(7) (q22), del(11) (q23). In 1995, the marrow blasts increased to 30% and the patient died of disease progression. The AML1/EVI1 gene has been shown to cause blast crisis in chronic myelogenous leukemia. This case suggested that the AML1/EVI1 gene may be involved in the progression of MDS together with del(7) (q22) and del(11) (q23).
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PMID:[Detection of t(3 ; 21) (q26 ; q22) with AML1/EVI1 mRNA during progression of myelodysplastic syndrome to acute myeloid leukemia]. 1042 92

New treatments that may change the course of a disease or have potential carcinogenicity can result in the emergence of new cytogenetic or clinical disorders. We report here the cytogenetic evolution of 52 cases of Philadelphia (Ph)-positive myelogenous leukemia (CML) receiving interferon-alpha (IFN-alpha) therapy compared with that of 59 Ph-positive CML cases treated with busulfan (BU) or hydroxyurea (HY). Twenty-one percent of the CML patients receiving IFN-alpha displayed unusual secondary abnormalities, among which alteration of the long arm of chromosome 3, del(7), and del(9) were recurrent. The frequency of these unusual secondary changes was significantly higher than in CML cases after Bu or Hy treatment (P = 0.02). Three of the 11 IFN-alpha-treated CML patients displayed cytogenetic evolution in the chronic phase and, in two cases, the cytogenetic findings were transient, inasmuch as they disappeared upon withdrawal of IFN-alpha. In addition, a majority of cytogenetic abnormalities involved chromosome 3 at bands 3q21 and 3q26, which corresponds to the locus of EVI1, a gene implicated in the development or progression of human myeloid leukemias. Possible explanations include: toxicity of IFN-alpha by effect on bone marrow stroma, immune-modulating effects of IFN-alpha, and mutagenic effects of IFN-alpha. The mechanisms underlying these cytogenetic changes remain to be elucidated. However, our data suggest that IFN-alpha induces additional cytogenetic abnormalities even in the chronic phase through its immune-modulating effects and that these unusual cytogenetic abnormalities do not alter the history of CML.
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PMID:Emergence of unusual cytogenetic abnormalities under interferon-alpha therapy in patients with chronic myelogenous leukemia. 1048 86

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