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)

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

Cytogenetic analysis for an atypical case of chronic myeloid leukemia (CML) showed a complex karyotype with four chromosome breakpoints (5q12, 12q21, 12q24, and 22q11) and translocation products that included a typical Philadelphia chromosome but apparently normal chromosomes 9. Molecular genetic analyses using four breakpoint cluster region (bcr) probes indicated that three breaks were probably present on chromosome 22. Two apparently independent breaks appeared to exist within the bcr, one of which was probably associated with a deletion of some bcr sequences. By combining the molecular and cytogenetic data, we could infer a total of seven breaks. This case illustrates the extensive and complex types of genetic alteration that may be associated with a c-abl and bcr fusion.
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PMID:Highly complex genetic rearrangement involving at least seven breakpoints in a case of chronic myeloid leukemia. 216 79

Chronic granulocytic leukemia (CGL) is associated with a reciprocal translocation between chromosomes 9 and 22. The breakpoint sites on chromosome 22 are clustered in a limited region known as the major breakpoint cluster region (Mbcr). This region is approximately 5.8 Kb long and can be arbitrarily subdivided into five zones (1 through 5 from the 5' towards the 3' end) as defined by the particular sites of three restriction endonucleases. Using Southern blot analysis with two DNA probes, one spanning both the 5' and 3' regions of the Mbcr while the other only the 3' region, we mapped the precise location of the chromosomal breakpoints within the Mbcr in 62 patients with CGL and examined possible clinical correlations. There were 39 patients with 5' breakpoints (zones 1-3) and 23 patients with 3' breakpoints (zones 4 and 5). We found no correlation between the clinical phase of the disease at last followup and breakpoint distributions. The distributions of chronic phase duration (CPD) and survival were similar between patients with 5' breakpoints (median CPD = 4.0 years) and those with 3' breakpoints (median CPD = 5.2 years). Presenting clinical features and the rates of lymphoblastic transformation were also similar among the subgroups. Our data suggest that the precise location of the breakpoint within the Mbcr in CGL may not have clinical relevance.
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PMID:The location of the Philadelphia chromosomal breakpoint site and prognosis in chronic granulocytic leukemia. 188 27

Philadelphia (Ph1) chromosome-positive clonogenic progenitors usually disappear within 4 to 6 weeks in long-term cultures established from the marrow of patients with chronic myeloid leukemia (CML). In contrast, coexisting chromosomally normal hematopoietic cells are relatively well maintained. Thus, even though normal cells are initially undetectable, they may become the predominant population. Recently, we have begun to explore the potential of such cultures as a strategy for preparing CML marrow for autografting, and based on cytogenetic studies of the differential kinetics of Ph1-positive and Ph1-negative clonogenic cells, have chosen a 10-day period in culture to obtain maximal numbers of selectively enriched normal stem cells. Here we present the results of molecular analyses of the cells regenerated in vivo for the initial three CML patients to be treated using this approach by comparison with the differentiated cells generated by continued maintenance of an aliquot of the autograft in vitro (using a slightly modified culture feeding procedure to enhance the production and release of cells into the nonadherent fraction after 4 weeks) for the one patient whose genotype made molecular analysis of clonality status also possible. These analyses showed that cells with a rearranged breakpoint cluster region (BCR) gene were not detectable by Southern blotting in either in vitro or in vivo populations of mature cells that might be assumed to represent the progeny of primitive cells present at the end of the initial 10 days in culture. Production of BCR-negative cells was also shown to be temporally correlated with the appearance of nonclonal hematopoietic cells both in culture and in vivo. These findings provide support for the view that prolonged maintenance of CML marrow cells in long-term culture may allow molecular characterization of both the BCR-genotype and clonality status of cells with in vivo regenerative potential.
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PMID:Detection of breakpoint cluster region- negative and nonclonal hematopoiesis in vitro and in vivo after transplantation of cells selected in cultures of chronic myeloid leukemia marrow. 217 22

The Philadelphia (Ph1) chromosome is found in the majority of patients affected by chronic myelogenous leukemia (CML), being considered the hallmark of the disease, but around 5-8% of patients diagnosed as CML lack the Ph1 chromosome-negative (Ph-) CML has been discussed extensively in the literature because of its heterogeneity. However, it is now accepted that some of the Ph1-CML patients have a disease indistinguishable from Ph1-positive (Ph+) CML. It was investigated whether Ph- CML with clinical and morphological features indicating true CML would always have bcr rearrangements, as the relocation of c-abl from 9q34 into the breakpoint cluster region on 22q11 is considered a crucial event in the pathogenesis of CML. From molecular studies, it seemed that Ph- CML with features of true CML always have the bcr rearrangement, while Ph- patients, lacking such rearrangement, have atypical forms of CML. Here we describe 8 Ph- CML and myeloproliferative syndrome (MPS) patients of whom 6 were by all respects true CML cases. Nevertheless, bcr rearrangement and expression of the classic bcr/abl chimeric mRNA was found in only 1 of the 6 patients. More advanced molecular techniques will be needed to understand which molecular mechanisms underlie Ph-, bcr- CML, resulting in phenotypes sometimes indistinguishable from Ph+, bcr+ CML.
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PMID:Chronic myelogenous leukemia with typical clinical and morphological features can be Philadelphia chromosome negative and "bcr negative". 219 65

We studied two cases of chronic myelogenous leukemia (CML) with unusual variant Philadelphia (Ph) translocation (22;22)(q11;q13). Southern blot analysis showed a chromosomal break in the BCR gene within the 5.8-kilobase (kb) breakpoint cluster region (bcr), between bcr exons 2 and 3 and between bcr exons 3 and 4, respectively. Chimeric bcr-abl mRNA was detected using polymerase chain reaction (PCR) which amplified, according to the respective bcr breakpoints, bcr exon 2-abl exon II and bcr exon 3-abl exon II junction products. These results further support the involvement, even when not cytogenetically detectable, of the 9q34 chromosomal region in all variant Ph translocations and that BCR-ABL gene fusion products are causally involved in the development of Ph positive CML.
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PMID:Chronic myeloid leukemia with unusual variant Ph translocation (22;22)(q11;q13). Two cases with chimeric BCR-ABL transcripts. 220 77

Six cases of chronic myelogenous leukemia (CML) with coexistence of cells with a Philadelphia (Ph) translocation and a normal karyotype are described. Molecular analyses were performed in 3 of the 6 cases at two phases with different cytogenetic findings. Among the 6 cases, 4 cases were late appearance of a Ph chromosome. Two of the 3 patients analyzed had major breakpoint cluster region (Mbcr) rearrangements; aberrant Mbcr fragments were observed whether the cells had a Ph translocation or not. The remaining one did not show any rearrangements within the Mbcr DNA sequences.
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PMID:Presence of Philadelphia (Ph) chromosome-negative cells in Ph-positive chronic myelogenous leukemia. 221 50

A standard Philadelphia translocation, t(9;22) (q34;q11), was found in lymph node cells from a patient with non-leukemic non-Hodgkin lymphoma at the time of diagnosis. The rearrangement of the breakpoint cluster region (bcr) was not detected with a bcr-3' probe. The neoplastic clone was of monoclonal B-cell character with E-, CD5-, CD10-, CD13-, CD19+, CD20+, CD21+, CD25-, HLA DR+, and positive surface Ig(kappa). The patient showed no evidence of chronic myelogenous leukemia.
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PMID:Ph chromosome in a patient with non-leukemic non-Hodgkin B-cell lymphoma. 222 Jul 68

A new and rare type of Bcr/Abl junction between exon C3 of the 3' portion of the Bcr gene and Abl exon 2 has been identified in the leukemic cells of two Ph1-positive chronic myelogenous leukemia patients in chronic phase. This is the fourth type of Bcr/Abl junction so far identified in Ph1-positive hematologic malignancies and is a consequence of an unusual breakpoint position on chromosome 22 that falls approximately 20 kb downstream of the major breakpoint cluster region (bcr) of the Bcr gene. The new hybrid mRNA is 540 base pairs (bp) longer than that expressed by the K562 cell line and could codify for a Bcr/Abl protein carrying 180 additional aminoacids with respect to the larger P210 protein so far identified. The hematologic phenotype expressed by the two patients carrying this unusual type of Bcr/Abl rearrangement does not significantly differ from that commonly seen in chronic myelogenous leukemia.
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PMID:New type of Bcr/Abl junction in Philadelphia chromosome-positive chronic myelogenous leukemia. 222 29

Despite the increasing reliance on breakpoint cluster region (bcr) determinations in diagnosis of chronic myelocytic leukemia (CML), few reports have dealt with the practical aspects of specimen analysis. In the setting of a routine molecular diagnostics laboratory, samples from 68 patients with active CML were evaluated for bcr rearrangements, with the use of a variety of enzymes and two probes. The data have been used to develop an efficient strategy for bcr screening and breakpoint determination. Screening with the universal bcr (UBCR) probe on Xba I and BgI II digests yielded bcr rearrangements in 100% of the Ph1-positive patients and three of the seven Ph1-negative patients, giving bcr analysis a sensitivity of 100%. A single-enzyme screen using the UBCR probe would have resulted in a false negative rate of 10%. The false negative rate was determined during the breakpoint site analysis from additional digests hybridized to both the 3' and UBCR probes. The false negative rate for the 3' probe was 26.5%, because of deletions or 5' rearrangements. The method of breakpoint site determination was dependent on screening results. In 78% of cases, one additional hybridization with two enzyme digests was required. During breakpoint site analysis, a rare false negative result was also demonstrated with Bam HI and Eco RI. This screening strategy has made bcr analysis competitive with cytogenetic analysis at the authors' institution; although turnaround time may be slightly longer, bcr analysis can yield information (such as detecting bcr-positive/Ph1-negative patients and determining breakpoint site) that cannot be obtained by cytogenetics.
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PMID:Strategy for breakpoint cluster region analysis in chronic myelocytic leukemia in a routine clinical laboratory. 224 94

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