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 hallmark of chronic myelogenous leukemia is the translocation of the human c-abl protooncogene (ABL) from chromosome 9 to the specific breakpoint cluster region (bcr) of the BCR gene on chromosome 22. The t(9;22)(q34;q11) translocation results in the formation of a BCR-ABL fusion gene that encodes a 210-kDa chimeric protein with abnormal tyrosine kinase activity. The ABL and BCR genes are expressed by normal cells and thus the encoded proteins are presumably nonimmunogenic. However, the joining-region segment of the p210BCR-ABL chimeric protein is composed of unique sequences of ABL amino acids joined to BCR amino acids that are expressed only by malignant cells. The current study demonstrates that the joining region of BCR-ABL protein is immunogenic to murine T cells. Immunization of mice with synthetic peptides corresponding to the joining region elicited peptide-specific, CD4+, class II major histocompatibility complex-restricted T cells. The BCR-ABL peptide-specific T cells recognized only the combined sequence of BCR-ABL amino acids and not BCR or ABL amino acid sequences alone. Importantly, the BCR-ABL peptide-specific T cells could recognize and proliferate in response to p210BCR-ABL protein. The response of peptide-specific T cells to protein demonstrated that p210BCR-ABL can be processed by antigen-presenting cells so that the joining segment is bound to class II major histocompatibility complex molecules in a configuration similar to that of the immunizing peptide and in a concentration high enough to stimulate the antigen-specific T-cell receptor. Thus, BCR-ABL protein represents a potential tumor-specific antigen related to the transforming event and shared by many individuals with chronic myelogenous leukemia.
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PMID:T-cell immunity to the joining region of p210BCR-ABL protein. 134 32

The hallmark of chronic myelogenous leukemia (CML) is the Philadelphia chromosome (Ph1) which is caused by a translocation of the c-abl gene from chromosome 9 to the breakpoint cluster region (bcr) on chromosome 22. Polymerase chain reaction (PCR) can be used to detect the chimeric bcr/c-abl mRNA as evidence of the translocation. We applied a very simple and quick method of isolating cytoplasmic RNA, as well as reverse transcription and PCR in detecting bcr/c-abl mRNA of seven CML patients in various stages. Our results showed that only a small amount of either peripheral blood or bone marrow material was required for the expression of the bcr/c-abl mRNA. This is a very fast and time-saving method since a one-step method of cytoplasmic RNA isolation is used instead of the several steps in total RNA isolation as published in other literature.
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PMID:Detection of bcr/c-abl mRNA in chronic myelogenous leukemia by polymerase chain reaction to identify chromosome translocation. 135 83

The chromosome 22 derivative, the Philadelphia (Ph) chromosome, results from the reciprocal translocation t(9;22) (q34;q11). On DNA level a BCR/ABL rearrangement involving the so-called major BCR (Mbcr) from chromosome 22 has been associated with chronic myeloid leukemia (CML). For Ph+ ALL a site of rearrangements in the 5' part of the BCR (breakpoint cluster region) gene on chromosome 22, the so-called minor bcr region (mbcr) has been described within the first intron in a 10.8 kb region (=bcr2 or m-BCR1). The BB1 probe detects two Eco fragments of 8.5 and/or 11 kb, which may appear as monomorphic or heteromorphic alleles, both covering bcr2. We have analyzed EcoRI restriction polymorphisms within bcr2 in 42 patients with a rearrangement in M-bcr (including 39 Philadelphia chromosome-positive (Ph+) CML patients and 3 ALLs) and in 18 healthy unrelated volunteers. Of the 42 patients tested, 52.4% (22) had the 8.5 kb bcr2 allele, 21.4% (9) had the 11 kb bcr2 allele, and 26.2% (11) had both the 8.5 and the 11 kb allele. In addition to normal allelic polymorphisms in bcr2, rRFs (rearranged bcr2 restriction fragments) were found in bcr2 as shown in 33% (14 of 42) of our patients. By contrast, no rRFs were found in 18 healthy volunteers. Our results indicate, that heterogeneous rearrangements in bcr2 may appear in addition to BCR/ABL rearrangements involving M-bcr in Ph+CML.
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PMID:Minor BCR (m-bcr) rearrangements may appear in major BCR (M-bcr)-positive CML cases. 136 28

In chronic myelogenous leukemia (CML) malignant cells are characterised by the Philadelphia chromosome (Ph), resulting from a translocation t(9;22). The position of the breakpoint within the major breakpoint cluster region (M-bcr) on chromosome 22 has been shown to correlate with the clinical course of the disease or, more recently, thrombopoietic activity. We have therefore determined the breakpoint localisation in 53 Ph-positive CML patients. Following the 5'/3'-region definition of Inokuchi et al. Leukemia Research 15, 1067 (1991) [1], 22 of our patients have 5' and 31 of our patients have 3' orientated breaks. No correlation was found between platelet counts and breakpoint localisation.
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PMID:No correlation between site of breakpoint in the BCR gene and platelet counts in Philadelphia chromosome-positive CML. 140 23

A genomic fragment containing the 5' boundary of the von Willebrand factor pseudogene was cloned, partially sequenced and used for in situ hybridization experiments on metaphase spreads from a Philadelphia chromosome (Ph1)-positive chronic myelogenous leukemia patient. Data obtained indicate that the von Willebrand factor pseudogenic region is centromeric to the breakpoint cluster region on 22q11.2. This probe could be used for the study of deletions in the DiGeorge syndrome.
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PMID:Characterization and mapping of the 5' portion of von Willebrand factor pseudogene. 148 45

Deoxyribonucleic acid (DNA) of twenty chronic myeloid leukemia (CML) and thirty acute lymphoblastic leukemia (ALL) patients were analysed by Southern hybridization. The DNA was digested with BglII and hybridized with a 4.5-kilobase (kb) ph1/bcr-3 DNA probe. All the 20 CML patients showed gene rearrangement within a 5.8-kb segment (the major breakpoint cluster region, M-bcr) of the breakpoint cluster region (bcr) gene of chromosome 22, indicating the presence of the Philadelphia chromosome. M-bcr rearrangement at the bcr gene of chromosome twenty-two was not detected in all the thirty ALL patients (nine adults and twenty-one children) and two normal controls.
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PMID:Breakpoint cluster region (BCR) gene rearrangement studies in chronic myeloid and acute lymphoblastic leukemias. 149 30

A patient with Philadelphia (Ph) chromosome-positive chronic myelogenous leukemia (CML) who was treated with alpha-interferon (alpha-IFN) is reported. After the treatment, the number of Ph+ bone marrow (BM) cells decreased gradually and the intensity of the rearranged major breakpoint cluster region (M-BCR) gene became faint; however, a lymphoblastic crisis developed about 1 year later. At the time of the blast crisis, the rearranged M-BCR band was detected, indicating that the blast crisis clone was derived from CML cells. The patient was treated with a combination of vincristine, prednisolone, daunorubicin, and L-asparaginase, and a hematologic remission was obtained. During the remission status, no rearranged M-BCR fragment was detected by conventional Southern analysis. Thus, the hematologic and genetic alteration in this case appeared to be identical to Ph+ acute leukemia with M-BCR rearrangement. The current case therefore indicates that alpha-IFN can reduce the proportion of Ph+ cells, but is unable to prevent blast crisis. Furthermore, the quantitative reduction of the cell population with a Ph chromosome may have some effects in modifying the genetic manifestations and clinical features of Ph+ CML, e.g., the delay in the appearance of the blast crisis.
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PMID:Restoration of cytogenetically normal marrow cells after remission of lymphoblastic crisis in a case of Ph positive CML treated with alpha-interferon. 155 Oct 82

In vitro data suggest a synergistic antiproliferative effect of different cytokines. In four clinical studies chronic myelogenous leukemia (CML) patients were treated with interferon (IFN)-alpha alone or IFN-alpha combined with either low-dose IFN-gamma or tumor necrosis factor (TNF)-alpha. The best response was achieved in previously untreated patients with good prognostic factors and highest tolerable IFN dose for maintenance treatment. Breakpoint localization within the major breakpoint cluster region did not correlate with response to IFN. In a randomized study of IFN-alpha versus IFN-alpha combined with IFN-gamma, no differences in response rates were observed. Patients with primary or secondary resistance to these treatment modalities received a combination therapy with IFN-alpha and TNF-alpha. In these patients, a decrease in leukocyte counts was noted, but no cytogenetic improvement occurred.
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PMID:Treatment of chronic myelogenous leukemia with different cytokines. 155 80

We report two patients with a myelodysplastic syndrome and the Philadelphia (Ph) chromosome. The first patient was a 73-year-old man who was diagnosed as having a chronic myelomonocytic leukemia in combination with features suggestive of a myeloproliferative syndrome. Chromosomal analysis showed a normal karyotype in the majority of cells, mixed with metaphases containing a standard Ph translocation, t(9;22)(q34;q11), as well as a translocation between chromosome 4 and 6: t(4;6)(p15;p12). Southern blot analysis showed breakpoint cluster region rearrangement as observed in classic chronic myeloid leukemia. The second patient was a 63-year-old man with a myelodysplastic syndrome, type refractory anemia. Cytogenetic study of bone marrow cells at the time of diagnosis revealed a normal karyotype: 46,XY. The initial myelodysplastic syndrome evolved to a myeloproliferative phase with progressive leukocytosis and thrombocytosis. During the terminal phase the Ph chromosome was discovered in 100% of the examined cells. We discuss the correlation between MDS and myeloproliferative diseases, the de novo acquisition of the Ph chromosome during the course of a myelodysplastic syndrome, and review the literature.
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PMID:Cytogenetic and molecular studies of the Philadelphia translocation in myelodysplastic syndromes. Report of two cases and review of the literature. 158 81

A new cell line designated JA-CML was derived from the peripheral blood of a patient with blastic phase CML. Sequential evolution of phenotypic and genetic markers was demonstrated during adaptation from primary to continuous culture in vitro. In the primary sample the majority of blast cells displayed the early T-cell markers, CD7, HLA-DR, and TdT, but were negative for the common ALL antigen (CALLA), CD4 and CD8. Simultaneously, unstimulated metaphase cells showed great karyotypic variation with a range of 43-46 chromosomes per cell. Clonal changes included the Ph chromosome t(9;22), loss of the Y and gain of several altered chromosomes. The cells grew slowly in suspension during the first 10 weeks of culture. During that time, cells still expressed the CD7 and HLA-DR antigens. Karyotypic analysis at ten weeks showed a pattern of 46,X,-Y,t(9;22),+8 in more than 90% of metaphases with disappearance of all other abnormal chromosomes noted in the original sample. A tetraploid subline exhibiting duplication of most chromosomes, including the Ph, comprised the remaining metaphases. Upon further cultivation in vitro, the cells transformed spontaneously over a period of several weeks, from T-lymphoid into myeloid cells. Expression of CD7 was lost, but reactivities with monoclonal antibodies to CD34, CD33 and CD13 were newly acquired. The karyotype was hypertriploid and all cells carried two copies of t(9;22) and lacked normal copies of No. 9 or Y. The cells have since maintained stable cytogenetic and phenotypic profiles. Molecular rearrangement of the breakpoint cluster region was identified in the primary blasts and the established line and T-cell receptor gene rearrangements were not found. These observations suggest that the leukemic blast arose from primitive stem cells, not irreversibly committed T cells, and that these stem cells retained the capacity to differentiate along the myeloid pathway.
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PMID:Emergence of myeloid stem cell line from T-lymphoid blastic phase of chronic myeloid leukemia in culture. 162 78

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