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:C0023473 (chronic myeloid leukemia)
18,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We sequentially analyzed the immunoglobulin heavy chain (IgH) variable region gene of leukemia cells obtained from a chronic myeloid leukemia (CML) patient who had three episodes of B-lymphoid crisis after bone marrow transplantation. Southern blots using the JH probe showed a single rearranged band which differed at each crisis, although the rearranged bands of the BCR gene were the same at each crisis. The IgH variable region sequences of the leukemia cells at each crisis were different. These observations suggested that multiple clones were generated from the progenitor cells of the blast crisis, which were transformed at a very early stage of B-lymphocyte ontogeny.
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PMID:Characterization of immunoglobulin heavy chain gene rearrangements in chronic myeloid leukemia with recurrent B-lymphoid blast crisis following bone marrow transplantation. 771 62

Five patients with clinical and laboratory features typical for juvenile chronic myeloid leukaemia (JCML) are presented. Rearrangement of the j joining region of the immunoglobulin heavy chain (Jh) was demonstrated in three children out of five analysed. As no Vh to DhJh nor kappa light chain rearrangements were demonstrated, it is reasonable to speculate that the transforming event of the stem cell happened at the stage when Dh to Jh rearrangement took place. As the monocytic lineage is prominent in JCML, it is suggested that the transforming event happens in a unique stem cell with intermediate differentiation towards the myelomonocytic as well as the B-lymphatic lineage. This stem cell, which is present at a certain stage of embryogenesis, disappears later. Such an early 'hybrid' cell is sometimes involved in leukaemias of early infancy, and may be the transformed cell in some cases of infantile leukaemia.
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PMID:Rearrangement of the immunoglobulin heavy chain gene in juvenile chronic myeloid leukaemia. 779 56

We sequentially analyzed the immunoglobulin heavy chain variable (IgH V) region gene of leukemia cells obtained from a chronic myeloid leukemia (CML) patient who had three episodes of B-lymphoid crisis after bone marrow transplantation. Southern blot analysis using the JH probe showed different rearranged bands at each crisis, although the same rearranged bands of the BCR gene were observed. We amplified and sequenced the IgH V region gene of the leukemia cells by reverse transcriptase polymerase chain reaction (RT-PCR) using the primers corresponding to the consensus 5'VH and mu constant regions. The dominant leukemia clone at each crisis had a unique VH-D-JH rearrangement; VH4A (V79)-DLR2-J5 (clone-1), VH4B (DP70)-DK4-J6 (clone-2) and VH4A (V79)-DN4-J6 (clone-3) at the first, second and third crises, respectively. Further analysis by PCR amplification using the consensus 5'VH and clone-specific primers revealed that clone-1 underwent VH4-->VH3 replacement at the second crisis, and that clone-3 was already in existence at the first crisis. Moreover, the DN4-J6 joining clone, in which the sequence was the same as that of clone-3, was identified at the first and third crises by PCR amplification using primers corresponding to the region upstream of the DN4 segment and DN4-J6 boundary of clone-3. These observations suggest that multiple clones were generated from the progenitor cells of blast crisis, which were transformed at a very early stage of B-lymphocyte ontogeny, by continuing rearrangement mechanisms of the IgH genes, and that the dominant clone at each crisis was undergoing change.
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PMID:Continuing immunoglobulin heavy chain gene rearrangements in chronic myeloid leukemia with recurrent B-lymphoid blast crises after bone marrow transplantation. 786 62

A 'B' cell line, originating from a patient with chronic myeloid leukemia and containing the Philadelphia chromosome, was established after Epstein-Barr virus transformation. The Philadelphia chromosome was the sole chromosomal abnormality in this line, designated as PhB1 cell line. In DNA hybridization studies we detected rearrangements in the bcr gene and in the immunoglobulin heavy chain joining region. The phenotypes of the cells were typical of mature B cells expressing antigens CD19, CD20, CD22, CD23, CD39, HLADR, IgM, and kappa. The expression of the 210 bcr-abl chimeric protein was detected by means of an immunoprecipitate assay.
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PMID:Philadelphia chromosome as the sole abnormality and p210 bcr-abl chimeric protein expression in an Epstein-Barr virus-transformed B cell line from a patient with chronic myeloid leukemia. 814 Aug 59

Many haematologic malignancies carry characteristic chromosomal translocations, which are thought to play an important role in the pathogenesis of these tumours. The t(8; 14) translocation in Burkitt's lymphoma was one of the first characterized at the molecular level. In this translocation the c-myc oncogene at chromosome 8q24 becomes deregulated by enhancer elements of the immunoglobulin heavy chain locus at chromosome 14q32 leading to a very aggressive B cell malignancy. Translocations involving an overexpressed c-myc gene are also found in AIDS-associated lymphoma or in T cell leukaemias, or they develop during tumour progression of a low grade B cell malignancy into a high grade B cell tumour in an additional cytogenetic change. A different mechanism of oncogene activation in a leukaemia specific chromosomal abnormality is found for CML, where c-abl sequences are fused into the bcr locus, or in the t(4; 11) of acute childhood leukaemia involving the recently identified ALL-1 gene at chromosome 11q23 resulting in a malfunctioning, structurally altered oncogene. Thus, in the past molecular and somatic cell genetic studies have clarified many details in aetiology and progression of leukaemias and lymphomas which are useful for applications in clinical diagnostics, and which in the future will be helpful in designing a therapy based on a molecular understanding.
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PMID:Chromosomal translocations in leukaemia. 814 18

We describe a characteristic case of chromosomal abnormalities in a 47-year-old man with chronic myelogenous leukemia (CML). He had been diagnosed with the chronic phase of CML on May 1990, but he refused treatment. He was readmitted in October 1991 because of peripheral lymphadenopathy. Hematologic studies showed that he remained in the chronic phase of CML. There were no additional chromosomal findings in the bone marrow, but cervical lymph node biopsy revealed complete replacement with blastoid cells. The blasts were positive for CD13 and CD33. DNA analysis for the breakpoint cluster region gene showed rearrangement pattern, but immunoglobulin heavy chain joining region genes and T-cell antigen receptor gene rearrangement were not observed. The karyotype of lymph node cells showed various additional chromosomal abnormalities. Therefore, we concluded that the patient had an extramedullary blastic crisis in his peripheral lymph nodes. Abnormal clones were composed of one main clone and three subclones, with the latter occupying more than 10% of the volume each other. Considering the types of the additional chromosomal abnormalities, all four types of clones were thought to have evolved through independent pathways.
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PMID:[Extramedullary blastic crisis of chronic myelogenous leukemia--a case with various additional chromosomal appearance]. 817 52

The very rapid development in the last few years of techniques based on use of the polymerase chain reaction (PCR) for characterizing molecular lesions in leukaemia and lymphoma now offers the opportunity for monitoring residual disease at a sensitivity of one malignant cell in 10(5) or 10(6) normal cells. Maximal specificity is presumably achieved when the DNA sequences amplified are truly leukaemia-specific, such as BCR/ABL in chronic myelogenous leukemia, RARA PML/RARA in t(15;17) acute myelogenous leukemia, DEK/CAN in t(6;9) AML, PBX1/E2A in t(1;19) acute lymphoblastic leukemia (ALL), or TAL-1 deletions in other T-ALLs. Comparable sensitivity may be achieved by using immunoglobulin heavy chain (IGH) and T-cell receptor (TCR) gene rearrangements if a clonospecific probe can be generated. However, the presence of similar sequences in IgH genes from normal B lymphocytes may decrease the specificity. For clinical purposes the crucial issues are the following. Can PCR techniques be used for confirmation of diagnosis and evaluation of extent of disease? Can PCR data obtained in remission provide information about the probability of cure or of relapse? Can techniques be developed to quantitate the PCR product and thereby increase its predictive value? These and other issues were addressed at the 4th Workshop of the Molecular Biology/BMT Study Group that took place in Bristol UK on 9-10 May 1992.
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PMID:Molecular evidence of minimal residual disease after treatment for leukaemia and lymphoma: an updated meeting report and review. 835 Jun 33

Two patients with chronic myelocytic leukemia (CML) mixed crisis and one with Philadelphia-chromosome-positive (Ph1 +) acute lymphoblastic leukemia (ALL) with cross-lineage nature had a considerable number of granulocytes with monoclonally rearranged immunogenotype. The gene configurations of immunoglobulin heavy chain (IgH), T-cell receptor beta chain (TCR beta), and gamma chain (TCR gamma) in the granulocytic cells were identical to those in the blasts, indicating that both the blasts and the granulocytes were derived from common leukemic progenitors with the IgH gene rearrangements. In a colony assay of cells from in the Ph1 + ALL patient, the leukemic cells showed the potential to differentiate into granulocytes in the presence of either granulocyte-macrophage colony-stimulating factor (GM-CSF) or granulocyte-CSF (G-CSF). Interleukin 7 (IL-7) exerted synergistic effects on colony and cluster formation in cultures with these cytokines. Further, IL-3, GM-CSF, and G-CSF receptor gene expression was found in the leukemic cells. Our findings indicate that the Ph1 + common progenitors in these three patients preserved the potential for granulocytic differentiation even after the occurrence of the Ig (and TCR) gene rearrangements as the first genomic event in lymphocyte differentiation. The phenomenon of cross-lineage in leukemic cells, at least in Ph1 + leukemia, can be considered to demonstrate the potential of leukemic progenitors to differentiate in multiple directions.
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PMID:A granulocytic population with rearranged immunogenotype in chronic myelocytic leukemia blast crisis and Philadelphia-chromosome-positive acute leukemia with cross-lineage nature. 838 Nov 95

Monoclonal antibodies to CD3 have been shown to activate T cells in vivo and in vitro but have also been shown to render T cells anergic in vitro. In this study G4.18, a mouse IgG3 mAb, was produced that appeared to recognize CD3 by its binding to all peripheral T cells, including a population not recognized by mAb to TCR-alpha/beta that was presumed to be TCR-gamma/delta cells. It precipitated molecules in the 24-26 kd region consistent with the CD3 complex as well as molecules approximately 45 and approximately 49 kd that corresponded to TCR alpha and beta chains and a 92-kd complex. Incubating T cells for 24 hr with saturating concentrations of G4.18 caused modulation of the TCR complex. In vitro, it activated T cells but only if prebound to plastic. In solution it inhibited MLC and CML, but not PHA or Con A activation. In vivo, G4.18 was not toxic even in high doses, and this was thought to be due to the inability of this mAb to activate T cells in vitro because the rat lacks Fc receptors for mouse IgG3. Therapy with G4.18 resulted in transient modulation of TCR/CD3 on T cells and depletion of these cells from blood. G4.18 had no depleting effects by lymph node or spleen cells but caused marked, transient thymic involution. Therapy with G4.18 also induced indefinite survival (> 100 days) of PVG (RTIc) heart grafts but not skin grafts in DA (RTIa) hosts. These hosts with long-surviving cardiac transplants, when grafted from PVG skin, accepted these grafts but rejected third-party skin in first-set. Thus G4.18 was shown to induce long-term specific tolerance to an organ allograft.
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PMID:Induction of long-term specific tolerance to allografts in rats by therapy with an anti-CD3-like monoclonal antibody. 845 60

The 14q+ chromosomal anomaly commonly found in cases of lymphoid neoplasm recurrently occurred during the lymphoid crisis of a patient with Philadelphia chromosome (Ph) positive chronic myelogenous leukemia (CML). At presentation lymphoblasts, with pre-B phenotype increased, and both the Ph and 14q+ were found in the same metaphases. After treatment with vincristine and prednisolone, the patient entered into the chronic phase, and only a Ph was detected in 100% of the cells examined. The 14q+ reappeared at the recurrence of the lymphoid crisis, and then disappeared in the second chronic phase. The BCR/ABL mRNA, which is specific for CML, was detected in the blastic cells by a method using reverse transcriptase and polymerase chain reaction. The rearrangement of the immunoglobulin heavy chain gene (JH gene) was also detected in the blastic cells. These results suggest that the 14q+ was closely associated with the lymphoid crisis of the CML patient.
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PMID:Recurrent appearance of 14q+ chromosome associated with lymphoid crisis of Ph-positive chronic myelogenous leukemia. 850 95


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