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 BCR/ABL1 fusion gene is mainly caused by the t(9; 22)(q34; q11.2) translocation, which results in the Philadelphia (Ph) chromosome. The Ph chromosome is the typical hallmark in chronic myeloid leukemia (CML), but can also be present in acute lymphoblastic leukemia (ALL) and acute myeloid leukemia (AML). The BCR/ABL1 rearrangement is an important tumor classification marker and a useful prognostic factor allowing an adequate therapy management. Ph chromosome detection by conventional cytogenetics (CC) can be hampered by low quantity and quality of metaphases from tumor cells. Furthermore, BCR/ABL1 rearrangements may be hidden due to cryptic rearrangements or complex aberrations. Therefore, molecular cytogenetic methods turned out to be useful tools for the detection of BCR/ABL1 rearrangements. We performed fluorescent in situ hybridization (FISH) with the recently developed BCR/ABL1 D-FISH probe (QBIOgene, Illkirch, F) on cultured bone marrow and peripheral blood cells of 71 patients with CML, ALL, AML, and myeloproliferative disorder (MPD). FISH results and the results of banding methods were directly compared. Based on the analyses of >200 nuclei per patient, D-FISH correlated closely with CC and allowed an accurate quantification of BCR/ABL1 rearrangements even in a low percentage of aberrant cells. No false-positive or false-negative results were obtained. Furthermore, the D-FISH probe detected three cryptic and one complex BCR/ABL1 rearrangement, which were not visible by CC. We conclude that D-FISH reliably detects standard Ph chromosomes as well as its variant translocations and accurately quantifies BCR/ABL1 rearrangements prior and during cancer treatment as well as in the phase of remission, in daily routine tumor cytogenetic diagnostics.
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PMID:High reliability and sensitivity of the BCR/ABL1 D-FISH test for the detection of BCR/ABL rearrangements. 1190 40

The pathogenetic role of the P210 BCR/ABL1 fusion gene in the chronic phase of chronic myeloid leukemia (CML) has been well established.In contrast, the genetic mechanisms underlying the disease progression into the accelerated phase (AP) and the final blast crisis (BC) remain poorly understood. We have previously identified (A. Barbouti et al., Genes Chromosomes Cancer, 35: 127-137, 2002) two cryptic balanced translocations, t(7;17)(p15;q23) and t(7;17)(q32-34;q23), in CML AP/BC using multicolor fluorescence in situ hybridization. In this study, we show that a novel gene in 17q23, Musashi-2 (MSI2), encoding a putative RNA-binding protein, is rearranged in both cases and that a MSI2/HOXA9 fusion gene is formed in the case with the 7p15 breakpoint. The identified in-frame MSI2/HOXA9 fusion transcript retains both of the RNA recognition motif domains of MSI2, which is fused to the homeobox domain of HOXA9, and is likely to play an important role in the disease progression of CML.
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PMID:A novel gene, MSI2, encoding a putative RNA-binding protein is recurrently rearranged at disease progression of chronic myeloid leukemia and forms a fusion gene with HOXA9 as a result of the cryptic t(7;17)(p15;q23). 1264 77

Most chronic myeloid leukaemia (CML) patients are genetically characterized by the t(9;22)(q34;q11), generating the BCR/ABL1 fusion gene. However, a few CML patients with rearrangements of 9q34 and 12p13, leading to ETV6/ABL1 chimaeras, have also been reported. Here we describe the clinical and genetic response to imatinib mesylate treatment of an ETV6/ABL1-positive CML patient diagnosed in blast crisis (BC). A chronic phase was achieved after acute myeloid leukaemia induction therapy. Then, treatment with imatinib mesylate (600 mg/d) was initiated and the effect was assessed clinically as well as genetically, including by repeated interphase fluorescence in situ hybridization studies. Until d 71 of imatinib mesylate therapy, stable improvements in the clinical and laboratory features were noted, and the frequency of ABL1-rearranged peripheral blood cells decreased from 56% to 11%. At d 92, an additional t(12;13)(p12;q13), with the 12p breakpoint proximal to ETV6, was found. The patient relapsed into BC 126 d after the start of the imatinib mesylate treatment and succumbed to the disease shortly afterwards. No mutations in the tyrosine kinase domain of ABL1 of the ETV6/ABL1 fusion were identified in the second BC. However, whereas the ETV6/ABL1 expression was seemingly the same at diagnosis and at second BC, the expression of ETV6 was markedly lower at the second BC. This decreased expression of wild-type ETV6 may have been a contributory factor for the relapse.
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PMID:Clinical and genetic studies of ETV6/ABL1-positive chronic myeloid leukaemia in blast crisis treated with imatinib mesylate. 1282 49

The expression of the chimeric BCR/ABL1 fusion gene resulting from t(9;22)(q34;q11) in chronic myelogenous leukemia (CML) is necessary for malignant transformation, but not sufficient to maintain disease progression. The appearance of various chromosomal and molecular alterations in the accelerated and terminal phase of CML is well documented, but evidence for causal relationship is largely lacking. We carried out a genome wide screening at a resolution of 1 Mb of 54 samples at different stages of CML together with 12 CML cell lines and found that disease progression is accompanied by a spectrum of recurrent genome imbalances. Among the most frequent are losses at 1p36, 5q21, 9p21, and 9q34 and gains at 1q, 8q24, 9q34, 16p, and 22q11, all of which were located with higher precision within the genome than previously possible. These genome imbalances are unique to CML cases with clinically manifested or suspected accelerated/blast stage alike, but not seen in chronic phase samples. Previously unrecognized cryptic imbalances occurring within the Ph-chromosome were also detected, although further scrutiny is required to pin-point gene involvement and seek association with disease features. Importantly, some of these imbalances were seen in the CD34(+) cells but not in the whole BM samples of patients in accelerated phase. Taken together, these findings highlight the potential of screening CD34(+) cells for genome wide imbalances associated with disease progression. Finally, the numerous single copy number variations recorded, many unique to this cohort of patients, raise the possible association of genome polymorphism and CML.
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PMID:Genomic profile of chronic myelogenous leukemia: Imbalances associated with disease progression. 1769 94

Transformation of polycythemia vera to chronic myelogenous leukemia is a rare event. We report 2 women with long-standing polycythemia vera who developed chronic myelogenous leukemia. Both patients had no BCR/ABL1 fusion at the time of polycythemia vera diagnosis but were positive for the fusion at chronic myelogenous leukemia onset. Most patients with polycythemia vera have JAK2(V617F) mutation. Analysis of an archival bone marrow aspirate sample from 1 patient showed a heterozygous mutation status. The blood and bone marrow samples from the other patient showed the presence of homozygous JAK2(V617F) mutation and BCR/ABL1 fusion. The possible pathogenesis of such an event is discussed in the light of current literature.
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PMID:Transformation of polycythemia vera to chronic myelogenous leukemia. 1797 93

Deletions at the t(9;22) breakpoint regions, found in 15% of chronic myeloid leukemia patients (CML) with an overt Philadelphia (Ph) translocation, are associated with an adverse disease prognosis in patients receiving interferon-alpha therapy. The incidence of deletions has been shown to vary for different cytogenetic subgroups of CML, with a significantly higher incidence of deletion in patients with a variant Ph translocation. To date, however, the frequency of such deletions in the subgroup of CML patients in whom the BCR/ABL1 fusion arises via submicroscopic chromosomal insertion (masked Ph) has not been investigated. We report the evaluation of 14 patients with masked Ph-positive CML for the presence of deletions extending 3' from BCR and 5' from ABL1 using two triple-color BCR/ABL probes. Deletions were identified in 3 patients (21%), encompassing sequences 5' to ABL1 in two of these and sequences 3' to BCR in the remaining patient, thus demonstrating that the phenomenon is a significant feature of the masked Ph CML subgroup. Furthermore, our findings are consistent with the notion that loss of genomic material is a potential side effect of any DNA breakage event at the 9q34.1 and 22q11.2 chromosomal regions, regardless of the subsequent mechanism of chromosomal rearrangement.
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PMID:Deletions adjacent to BCR and ABL1 breakpoints occur in a substantial minority of chronic myeloid leukemia patients with masked Philadelphia rearrangements. 1840 72

We report a case of chronic myeloid leukemia in chronic stage with 48 chromosomes and four BCR/ABL1 fusion signals on two out of three chromosomes 9 and two signals on the two Philadelphia chromosomes. These abnormalities were detected by both conventional cytogenetic analysis and metaphase and interphase fluorescence in situ hybridization studies in approximately 90% of the cells at diagnosis. Real-time-polymerase chain reaction studies on peripheral blood showed b3a2(p210) and e1a2(p190) BCR/ABL1 fusion transcripts. During treatment with imatinib, the patient was asymptomatic with hematological remission. Cytogenetic and fluorescence in situ hybridization analysis revealed that only 6.6% of cells had the initial majority line karyotype, with disappearance of the p210 but increased p190 transcript, which led to the treatment being changed. We discuss the implication of cytogenetic and molecular alterations in the patient's evolution and treatment.
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PMID:Cytogenetic, fluorescence in situ hybridization, and molecular characterization of chronic myeloid leukemia in chronic phase with four BCR/ABL1 fusion signals: a case report. 1983 72

Chronic myeloid leukemia (CML) with the e19a2 transcript coding for p230 is typically associated with a benign clinical course unless accompanied at presentation with additional chromosomal abnormalities. We report here a case of CML with e19a2 who did not show additional chromosomal abnormalities at diagnosis, but progressed to the fatal advanced stage in approximately 2 years. The patient was initially treated with imatinib, which, however, could be administered only intermittently at reduced doses because of recurrent thrombocytopenia and fluid retention. Nine months after starting imatinib, fluorescence in situ hybridization (FISH) with the BCR/ABL-ES fusion probe revealed 96% and 3% of bone marrow cells with one and two BCR/ABL1 fusion signals, respectively. Two years after starting therapy, leukocytosis recurred and the bone marrow contained 8.2% large and bizarre myeloblasts. Cytogenetic analysis revealed double Ph clones as well as tetraploid cells with four to five Ph chromosomes. FISH analysis confirmed the presence of cells with two to five BCR/ABL1 fusion signals. The patient died of disease progression in 2 months. No point mutation was detected in the region coding for the BCR/ABL tyrosine kinase domain by sequence analysis. It is speculated that the amplification of the BCR/ABL1 fusion gene by duplication of Ph and tetraploidy led to the progression of CML with the e19a2 transcript.
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PMID:Clonal evolution with double Ph followed by tetraploidy in imatinib-treated chronic myeloid leukemia with e19a2 transcript in transformation. 2041 71

A pericentric inv(9)(p22q34) of the derivative chromosome 9 that resulted from a standard t(9;22)(q34;q11.2) was identified by R-banding karyotypic analysis and fluorescence in situ hybridization (FISH) assays in 4 (0.18%) of 2,200 Philadelphia chromosome (Ph)-positive leukemia patients, including 3 with chronic myeloid leukemia (CML) in chronic phase and 1 with acute myeloid leukemia (AML) in our hospital since 2004. All four patients had two malignant clones: one with only t(9;22)(q34;q11.2) and another with der(9)t(9;22)(q34;q11.2)inv(9)(p22q34) that resulted in the separation of the ABL1/BCR fusion gene. No metaphases with only inv(9)(p22q34) were seen in any of them. FISH also found a deletion of partial sequence of BCR on der(9)t(9;22)(q34;q11.2)inv(9)(p22q34) in 67.5% of bone marrow cells in the AML patient, but did not detect the deletion of the sequence of ASS/9q34 in these four patients. Reverse transcriptase-polymerase chain reaction revealed a b3a2 type of BCR/ABL1 fusion transcript in all of them, proving their disease to be Ph-positive leukemia. On reviewing the literature, only two solitary Ph-positive leukemia patients have been noticed to have the inv(9)(p22q34) anomaly. These two patients, together with our four documented patients, indicate that inv(9)(p22q34) is a novel, rare, but recurrent secondary chromosomal abnormality for Ph-positive leukemia. Despite receiving hydroxyurea therapy (n = 3 patients), combined chemotherapy (n = 2), even imatinib treatment (n = 1), three patients, including one with AML and two with CML (one of whom progressed into the lymphoblastic blast phase), died with survival times of 28 days, 13 months, and 34 months, respectively. Only one patient with CML remained alive for 5.5 months. Their negative outcome implies that inv(9)(p22q34) has an unfavorable impact on prognosis. Presently, no firm conclusions can be drawn from this study. Because the case number reported here is very small, more patients with this anomaly need to be investigated to elucidate its true prognostic significance.
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PMID:A pericentric inv(9)(p22q34) of the der(9)t(9;22)(q34;q11.2) is a recurrent secondary anomaly in Ph-positive leukemia. 2115 55

Chronic myeloid leukemia (CML), characterized by the t(9;22) and BCR/ABL1 fusion, is a disease model for studying the mechanisms of genetic abnormalities in leukemogenesis. The detection of the t(9;22), characterization of the BCR/ABL fusion, and the discovery of imatinib have elegantly reflected the success of our research efforts in CML. However, genomic instabilities that lead to the formation of the BCR/ ABL1 fusion are not fully understood. It is important to understand how various genes that are involved in regulating the signaling pathway and epigenetic deregulation cooperate with the BCR/ABL1 fusion in the initiation and progression of CML.
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PMID:Chronic myeloid leukemia: current perspectives. 2211 44

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