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)

The clonal and immunophenotypic characteristics of blood leukemic cells from BCR/ABL p190 transgenic mice were investigated. All cell populations evaluated in vivo and in vitro had B-lymphocyte progenitor immunophenotypes. Immunoglobulin (JH) rearrangement patterns provided evidence for clonal diversification at different sites in vivo. Multiple clones were established in vitro from two of these mice (nos. 730 and 753). These cells expressed BCR/ABL p190 protein tyrosine kinase (PTK) and were highly malignant on transfer to secondary recipients. Cells independently cloned in vitro shared identical immunophenotypes and clonal IgH rearrangements, but these were distinct from those of the dominant clones in the mouse from which they were derived. Nevertheless, in vitro clones from mouse no. 753 had an abnormal karyotype (chromosome 14 trisomy) in common with the dominant clone in blood, providing evidence for a hierarchy or clonal selection in vivo and in vitro. Two sets of in vitro clones proliferated independently of exogenous growth factors and stroma and released autocrine interleukin 7 growth factor activity. These data provide evidence for rapid divergent clonal evolution and selection of B-cell progenitors initiated by BCR/ABL p190, followed by other, secondary genetic events mirroring similar changes in the equivalent, highly malignant human leukemia Philadelphia (Ph)-positive/B-precursor acute lymphoblastic leukemia (ALL).
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PMID:Clonal characteristics of acute lymphoblastic cells derived from BCR/ABL p190 transgenic mice. 137 12

The Philadelphia (Ph1) chromosome, or its molecular counterpart, the BCR-ABL fusion gene, is a rare but important prognostic indicator in childhood acute lymphoblastic leukemia (ALL), but its impact on adult ALL has not been well ascertained. A prospective study of the BCR-ABL fusion gene was begun on patients entered on clinical trials conducted by the Cancer and Leukemia Group B (CALGB). All patients received intensive, multiagent chemotherapy that included daunorubicin. Over 2 years, 56 patients were studied for molecular evidence of a BCR-ABL gene using Southern blot and pulsed-field gel hybridization analysis. Results were compared with cytogenetic detection of a Ph1 chromosome, and clinical features were compared for the BCR-ABL-positive and -negative groups. Molecular methods detected the BCR-ABL gene in 30% of cases compared with cytogenetic detection of the Ph1 chromosome in only 23%. The majority of cases (76%) showed the p190 gene subtype similar to pediatric ALL; the BCR-ABL-positive cases displayed a more homogeneous immunophenotype than the BCR-ABL-negative cases and were predominantly CALLA positive (86%) and B-cell surface antigen positive (82%). The rate of achieving complete remission was similar in the BCR-ABL-positive and -negative groups (71% and 77%, respectively, P = .72). There were more early relapses in the BCR-ABL-positive group, resulting in a shorter remission duration that was especially marked in the CALLA-positive and B-cell antigen-positive populations. These preliminary data suggest that the impact of the BCR-ABL gene on clinical outcome in ALL may be on maintenance of complete remission (CR) rather than achievement of CR when aggressive, multiagent chemotherapy is used. This study identifies the BCR-ABL gene as an important factor in adult ALL and demonstrates the utility of molecular methods for its accurate diagnosis.
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PMID:Clinical significance of the BCR-ABL fusion gene in adult acute lymphoblastic leukemia: a Cancer and Leukemia Group B Study (8762). 146 14

In Philadelphia chromosome (Ph1)-positive acute lymphoblastic leukemia (ALL), some cytogenetic studies have suggested clonal derivation from a multipotential stem cell. The role of the product of the chimeric gene, P190, is not, however, well understood. We examined the expression of P190-type bcr/abl in single hematopoietic colonies obtained at various clinical stages of a patient with Ph1-positive ALL, using the polymerase chain reaction (PCR). Seven out of 58 colonies examined expressed P190-type bcr/abl. Five out of seven colonies were granulocyte/macrophage (GM) colonies and two were erythroid colonies. The cell lineages of these colonies were confirmed by testing for the expressions of the myeloperoxidase (MPO) gene in the GM colonies and the beta-globin gene in the erythroid colonies. These results suggest transformation of multipotential stem cell in this patient and confirm that expression of the P190-type bcr/abl fusion gene permits stem cell differentiation leading to Ph1-positive ALL.
Leukemia 1992 Aug
PMID:P190-type bcr/abl expressed in myeloid colonies in a patient with Ph1-positive acute lymphoblastic leukemia. 164 Jul 30

A chimeric BCR/ABL oncogene encoding the p190 protein has been introduced into the mouse germline using microinjection of one-cell fertilized eggs. Founder and progeny transgenic animals, when becoming ill, were found to develop lymphoblastic leukemia/lymphoma which was transplantable to compatible recipients. Lymphoblasts were arrested at the pre-B stage of development. Expression of BCR/ABL was not detected in peripheral blood during the early stages of leukemia but became evident as the disease progressed. However, the transgene was expressed early in development in bone marrow and was also transcribed in nonhematopoietic tissues although this did not result in tumorigenesis. These results strongly suggest that the oncogenicity of BCR/ABL is limited to hematopoietic cells, including pre-B cells or their progenitors.
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PMID:Restricted oncogenicity of BCR/ABL p190 in transgenic mice. 164 46

Two cases are described with the rare combination of inv(16)(p13q22), strongly associated with acute myelomonocytic leukemia with eosinophilia, M4Eo, and the Philadelphia translocation, t(9;22)(q34;q11), hallmark of chronic myeloid leukemia (CML) and rarely found, (less than 1%), in acute nonlymphocytic leukemia. The patients were: case 1, a 9-year-old girl presenting with a white blood cell count (WBC) 42 x 10(9)/L with 32% blasts and bone marrow with blasts and eosinophil precursors consistent with M4Eo, and case 2, a 25-year-old man with WBC 34.7 x 10(9)/L with 13% blasts and bone marrow with features of M4Eo and basophilia. Both patients achieved remission but died following bone marrow transplantation in first remission (case 1) or in relapse (case 2). Cytogenetic findings were: case 1, at diagnosis, 46,XX,inv(16)(p13q22)(21)/46,XX,t(9;22) (q34;q11),inv(16)(8)/46,XX(10), and case 2, at diagnosis, 46,XY,t(9;22) (q34;q11),inv(16)(p13q22) (16) and in remission, 46,XY,t(9;22)(q34;q11) (1)/46,XY (24). Investigation of the breakpoint on 22 in case 1 with Southern blotting and the polymerase chain reaction demonstrated the presence of a p190 mRNA and a breakpoint typical of acute leukemia. Thus a diagnosis of M4Eo was supported by clinical and cytogenetic sequelae in each case; the Ph in case 1 was apparently secondary to inv(16), in case 2 the Ph probably preceded inv(16) in the etiology of the leukemia.
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PMID:Inversion of chromosome 16 with the Philadelphia chromosome in acute myelomonocytic leukemia with eosinophilia. Report of two cases. 172 47

The Philadelphia (Ph) translocation is responsible for the generation of the chimeric BCR/ABL oncogene. The Ph chromosome constitutes the earliest detectable chromosome abnormality in chronic myelogenous leukemia and is also found in acute lymphoblastic leukemia. Mice transgenic for a P190 BCR/ABL-producing DNA construct develop lymphoblastic leukemia/lymphoma and provide an opportunity to study early stages of the disease as well as progression. In this study, we have karyotyped the bone marrow of 10 19-day-old BCR/ABL P190 transgenic mice from a line that reproducibly develops leukemia/lymphoma. Leukemic cells from 17 terminally ill transgenic founders and progeny were also karyotyped as well as bone marrow transplant recipients of leukemic donor marrow. Karyotypically visible aberrations were absent from the early stages of BCR/ABL P190-generated leukemia and normal metaphases could be found even in the terminal stages of the disease. A high frequency of aneuploidy was found in advanced leukemia, with a marked preference for the gain of mouse chromosomes 12, 14, or 17. These results point to a primary role for BCR/ABL in leukemogenesis and suggest a destabilizing effect of the BCR/ABL gene on the regulation of cell division.
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PMID:Clonal development and karyotype evolution during leukemogenesis of BCR/ABL transgenic mice. 173 87

Two bcr/abl fusion gene products with tyrosine kinase activity have been found in two phenotypes of Philadelphia chromosome (Ph1)-positive leukemia. P210bcr/abl (P210) is associated with Ph1-positive chronic myelogenous leukemia (CML), while P190bcr/abl is associated with Ph1-positive acute leukemia. We compared the susceptibility of 32Pi-labeled P210 from K-562 cells and P190 from MR-87 cells to protein tyrosine phosphatase (PTPase). PTPase, present in the lysate of mature granulocytes from CML patients as well as in the lysate of these cells from normal subjects, effectively dephosphorylated the CML-associated P210 and the acute leukemia associated P190. This PTPase activity was specifically inhibited by ZnCl2; it was not present in lymphocyte lysates, and was not inhibited by neutralization with anti-CD45 antibody. Since P210 and P190 were equally sensitive to the PTPase, the difference in leukemic phenotypes associated with the expression of these two tyrosine kinases cannot be explained by the differential dephosphorylation of P210 and P190.
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PMID:Two bcr/abl fusion gene products, P210bcr/abl and P190bcr/abl, are equally sensitive to the protein tyrosine phosphatase of mature granulocytes. 179 29

A lymphoblastoid cell line (SD-1) has been established by Epstein-Barr virus immortalisation of Philadelphia chromosome positive acute lymphoblastic leukaemia (ALL) cells. Using newly derived anti-bcr monoclonal and anti-abl polyclonal antibodies it was demonstrated that both the original leukaemic cells and the derived cell line expressed the p190 form of the bcr-abl protein found in a proportion of cases of Philadelphia chromosome positive ALL. Interestingly, the leukaemia and the derived cell line each displayed different, clonal patterns of immunoglobulin gene rearrangements providing direct evidence that the t(9;22) translocation which results in the expression of the p190 bcr-abl protein must occur before immunoglobulin heavy chain gene rearrangement. In contrast to the leukaemia, which had multiple chromosome abnormalities in addition to the t(9;22), the cell line had the t(9;22) translocation as its sole abnormality. Although SD-1 cells were demonstrated to express continuously the p190 bcr-abl protein, they were unable to form colonies in soft agar and did not cause tumours in splenectomised nude mice. This cell line therefore represents an appropriate target cell line in which to examine the cooperativity of the p190 bcr-abl protein with other activated oncogene products.
Leukemia 1991 Jan
PMID:Establishment of a lymphoblastoid cell line, SD-1, expressing the p190 bcr-abl chimaeric protein. 184 83

A patient is described with de novo acute non-lymphocytic leukemia of megakaryoblastic lineage with tri-lineage myelodysplasia. This patient was studied cytogenetically and using molecular genetic techniques throughout her clinical course. She had an N-ras mutation at diagnosis which persisted despite a bone marrow transplant, and acquired a Philadelphia chromosome associated with a P190 BCR-ABL transcript at clinical relapse 3 months post-transplantation.
Leukemia 1991 Aug
PMID:Megakaryoblastic leukemia with an N-ras mutation and late acquisition of a Philadelphia chromosome. 188 21

A leukemia line KOPN30bi was established from a patient of acute lymphoblastic leukemia with Philadelphia chromosome. The clonal rearrangement of the immunoglobulin heavy chain gene was identical between KOPN30bi and the predominant clone in the fresh sample (S1) from which KOPN30bi was established, indicating that they are of the same clonal origin. The study of the T cell receptor (TCR) genes including TCR beta, gamma, delta loci showed none of these loci was identical between KOPN30bi and S1. The result of the TCR delta region analysis which was rearranged on one of the alleles in KOPN30bi and was deleted on both alleles in S1, however, indicated KOPN30bi was not a derivative of S1. Polymerase chain reaction, using oligonucleotide probe corresponding to the N region sequence of V gamma-J gamma juncture of KOPN30bi, indicated that only one % of the blast cells in S1 corresponded to KOPN30bi. These studies indicated that the predominant clone in the fresh sample, although it occupied more than 99% of the blasts, did not represent the characteristics of the target cell for leukemogenesis, and furthermore that the leukemogenic molecular mechanisms such as P190 type BCR/ABL translocation are not enough to freeze the differentiation of the target cell.
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PMID:[Antigen receptor gene analysis in lymphoid malignancies--a study using the polymerase chain reaction]. 189 Jul 40


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