Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have performed gene rearrangement studies on the leukemic blasts of a patient with acute pre-B-cell leukemia. The patient had a 5 year history of follicular lymphoma, which developed into acute pre-B-cell leukemia. The leukemic blasts revealed a karyotype with two translocations, t(8; 14) and t(14; 18), characteristic for Burkitt's lymphoma and follicular lymphoma. The cells are TdT positive, do not possess surface immunoglobulin, and they show immunoglobulin gene rearrangement. The mu heavy chain and kappa light chain constant (C mu and C kappa) loci are deleted, while the gamma and lambda light chain constant (C gamma and C lambda) region genes are rearranged. Both alleles of the heavy chain joining segment (JH) are rearranged on chromosome 14q+, one of them with the bcl-2 oncogene from chromosome 18. The breakpoint of the t(14; 18) translocation occurs in the major breakpoint cluster region in the 3' untranslated region of bcl-2. On chromosome 8 a c-myc rearrangement was mapped immediately 5' to the c-myc first exon in a region involved in sporadic Burkitt lymphoma. The data are consistent with our previous hypothesis on the evolution of B-cell malignancies: a rare pre-B cell develops a t(14; 18) translocation during immunoglobulin VDJ joining that results in an expansion of a follicular lymphoma clone carrying an activated bcl-2 gene. Within the clone of pre-B cells a second translocation, t(8; 14), occurs during heavy chain isotype switching that results in the deregulation of the c-myc involved in the translocation.
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PMID:Pre-B-cell leukemia with a t(8; 14) and a t(14; 18) translocation is preceded by follicular lymphoma. 313 17

A 16-year-old boy with leukemia had a marked leucocytosis (165 x 10(9)/L) at presentation. The large number of neutrophils, myelocytes, and metamyelocytes and negative leucocyte alkaline phosphatase reaction raised the possibility of chronic myeloid leukemia. Cytogenetic analysis showed a deletion of chromosome 7, a t (8;21), a missing Y chromosome, and, in some cells, duplication of the der(21). The Philadelphia chromosome was not detected, nor was the breakpoint cluster region of chromosome 22 found to be rearranged. Myeloid leukemia with t (8;21) can therefore be associated with a greater degree of granulocytic hyperplasia than has so far been apparent, and cytogenetic analysis in this case has been crucial in distinguishing leukemia types.
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PMID:Translocation t (8;21) associated with marked granulocytic hyperplasia. 316 93

The rearrangement of breakpoint cluster region (ber) was examined in leukemic cells obtained from 3 patients initially diagnosed as having Ph+ acute leukemia, 2 with acute lymphocytic leukemia (ALL) and one with acute mixed leukemia. DNA was digested with Bgl II and BamH I. The ber rearrangement was present in the case of acute mixed leukemia (Case 1), but was absent in the 2 cases of ALL (Cases 2 and 3). These results suggest that Case 1 represented a type of blast crisis of chronic myelocytic leukemia which was unusual in the sense of the occurrence of a myeloid-lymphoid conversion and lack of an apparent chronic phase. Cases 2 and 3 appeared to be de novo Ph+ ALL.
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PMID:Rearrangement of the breakpoint cluster region in Philadelphia chromosome positive acute leukemia. 316 71

Approximately 5% of children and 10-20% of adults with acute lymphoblastic leukaemia (ALL) have a chromosome translocation t(9;22) which at the cytogenetic level appears identical to that in chronic myeloid leukaemia (CML). The t(9;22) translocation was first recognised in CML patients by its 22q- or Philadelphia (Ph) chromosome. While all Ph positive CML patients so far described have a chromosome 22 breakpoint within the breakpoint cluster region (bcr) located in the 3' part of the phl gene, only some Ph positive ALL patients have breakpoints in bcr. We have cloned the breakpoint of the 9q+ chromosome from the DNA of a Ph positive ALL patient in whom there is no breakpoint in the bcr. The non-chromosome 9 sequences of the breakpoint region are shown to be derived from chromosome 22. The breakpoint in chromosome 22 is shown to be the first intron of the phl gene about 66kb upstream of the bcr. Using probes from this intron, rearrangements were detected in the DNA of two out of twelve additional Ph positive, bcr negative ALL patients.
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PMID:Characterization of the translocation breakpoint in a patient with Philadelphia positive, bcr negative acute lymphoblastic leukaemia. 316 23

We have detected rearrangement in the breakpoint cluster region (bcr) on chromosome 22 in cells derived from seven chronic myelogenous leukemia (CML) patients who had no cytogenetic evidence of a chromosome abnormality. These Philadelphia (Ph)-negative, bcr rearrangement-positive CML patients had clinical features and laboratory parameters that bore a strong resemblance to those of Ph-positive CML; all patients have shown a favorable response to hydroxyurea, busulphan, or alpha interferon (IFN-alpha) therapy. In one patient, because of the deletion of distal 3' sequences, detection of bcr rearrangement required a large probe that recognized proximal 5' sequences. Cells obtained from five patients were studied by Northern blotting and showed an aberrant 8 kilobase (kb) mRNA indistinguishable from the bcr-abl transcript that is felt to be a pathogenetic factor in Ph-positive CML. In three patients with a normal karyotype, bcr rearrangement was detected at the time of hematologic remission, and represented the only evidence for persistent malignancy. Our results suggest that: (1) the presence of bcr rearrangement in CML is associated with clinical features of Ph-positive disease, even in the absence of the Ph chromosome; (2) deletions occur within bcr and necessitate the use of probes covering both 5' and 3' DNA segments for accurate diagnosis; (3) molecular analysis may provide a useful approach to the follow-up of leukemia therapy in some patients; and (4) these patients respond to hydroxyurea, busulphan, and IFN-alpha therapy.
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PMID:Philadelphia-negative chronic myelogenous leukemia with breakpoint cluster region rearrangement: molecular analysis, clinical characteristics, and response to therapy. 317 24

Molecular rearrangements of Ph1 chromosome, the hallmark of CML, are clustered in a 5.8-kb DNA segment, the so-called breakpoint cluster region (bcr) of the phl gene that is localized to chromosome 22q11. In Ph1-positive (Ph1+) ALLs, the rearrangements have been shown to involve either the 5.8-kb bcr (called bcr+) or a region upstream of bcr in the 5' end of the phl gene (bcr-). To gain insight into the rearrangements occurring in Ph1+ acute leukemias, a 64-kb DNA fragment from the 5' end of phl was analyzed in order to generate molecular probes covering 40 kb of the phl gene first intron. A panel of seven cases of bcr-Ph1+ acute leukemia (three nonlymphocytic and four lymphocytic) was investigated with these intron 1-derived probes. Strikingly, in six of the seven leukemias, the breakpoints were located in a 10.8-kb DNA segment, defining a new bcr which appears to be specific for Ph1+ acute leukemias. By analogy with the CML bcr region located in the 3' part of the phl gene, we propose to designate this 10.8-kb fragment bcr2.
Leukemia 1988 Oct
PMID:Molecular cloning of a 5' segment of the genomic phl gene defines a new breakpoint cluster region (bcr2) in Philadelphia-positive acute leukemias. 317 40

Rearrangement of the breakpoint cluster region (bcr) was demonstrated by Southern blot analysis in the DNA in each of 68 patients with Ph chromosome-positive CML and in 3 of 7 patients with apparent Ph chromosome-negative CML. In contrast, no bcr rearrangement could be found in DNA from 17 normal individuals and 28 patients with various hematologic disorders other than CML or ALL. An analysis of the location of the breakpoints within the bcr indicated that 3' breakpoints were significantly more common in patients in blast crisis or accelerated phase disease compared to those with chronic phase disease. Patients with chronic phase disease and 3' breakpoints had shorter average disease duration than that for chronic phase patients with 5' breakpoints, although the difference between these two groups of patients was not statistically significant. For patients who had progressed to accelerated disease or blast crisis, a statistically significant difference in chronic phase disease duration could be demonstrated between 11 patients with 3' breakpoints (average chronic phase 30.2 months) and 15 patients with 5' breakpoints (average chronic phase 50.6 months). For 8 patients studied in both chronic phase and accelerated or blast crisis, the location of the breakpoint did not change. We suggest that the bcr-abl fusion protein associated with a 3' breakpoint could result in more rapid progression to acute disease, and this may account for differences in the relative frequency of 3' and 5' breakpoints at different disease stages. Although more studies are required, identifying CML patients with a higher propensity for early blast transformation may eventually prove to be of some clinical value.
Leukemia 1988 Oct
PMID:The location of breakpoints within the breakpoint cluster region (bcr) of chromosome 22 in chronic myeloid leukemia. 317 41

Six adult patients presented with clinical features of essential thrombocythaemia. Five of the patients, although Ph-positive, have maintained these features without evidence of leukaemia; in one case for 9 years. A sixth patient developed leukaemic blast crisis following a persistently high platelet count over 4 years. Her cells were Ph-negative, but hybridization of gene probes to chromosomes in situ and to leukaemic DNA showed that the abl oncogene had moved to the breakpoint cluster region (bcr) on the normal chromosome 22. This patient has the same molecular gene change as occurs in some cases of Ph-negative chronic myeloid leukaemia (CML) whose leukaemic cells likewise show no evidence of chromosomal translocation. Molecular studies are essential for the correct diagnosis of these patients. The Ph genomic lesion appears to have a range of leukaemic expression which includes thrombocythaemia as well as chronic myeloid leukaemia and acute lymphatic leukaemia.
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PMID:Essential thrombocythaemia and the Philadelphia chromosome. 317 24

Basophils were isolated from the peripheral blood of two patients with Philadelphia positive-chronic myeloid leukemia using monoclonal antibody Bsp-1 and fluorescence activated cell sorting. DNA blot analyses demonstrated rearrangement of the breakpoint cluster region gene in the isolated basophils, which suggests their leukemic origin. Isolated T cells from these patients that were cultured for 14 days in the presence of interleukin-2 lacked rearrangement of the breakpoint cluster region gene and are therefore unlikely to be derived from the chronic myeloid leukemia clone.
Leukemia 1988 Mar
PMID:Basophils exhibit rearrangement of the bcr gene in Philadelphia chromosome-positive chronic myeloid leukemia. 325 49

Analysis at the DNA and RNA level revealed a mature genetic marker profile in a case of T type blast crisis of chronic myelocytic leukemia. T cell receptor beta chain gene rearrangement as well as T cell receptor alpha mRNA transcription was demonstrated in blasts of the malignant clone. Corresponding findings were obtained from immunological phenotyping. Blasts were found to be CD7+, CD1+, CD3+, CD4+, CD8+, and TdT- and classified as common/mature thymocytes. The presence of the breakpoint cluster region gene on chromosome 22 excluded the possibility of a second neoplastic process.
Leukemia 1988 Mar
PMID:T cell receptor alpha mRNA transcription in T-lymphoblastic transformation of chronic myelocytic leukemia. 325 50


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