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)

Normal and leukemic bone marrow cells were studied in the presence of tumor necrosis factor alpha (TNF) together with granulocyte colony-stimulating factor (G-CSF) or granulocyte-macrophage colony-stimulating factor (GM-CSF) in clonogenic assays. Cells of four normal volunteers, three patients with chronic myeloid leukemia, 16 patients with acute non-lymphocytic leukemia (ANLL), and six patients with myelodysplastic disorders were compared. Our results show four patterns of response to TNF in the presence of G-CSF or GM-CSF: (a) increased sensitivity to inhibition by TNF relative to the response of normal bone marrow cells; (b) response indistinguishable from normal bone marrow cells; (c) refractoriness to TNF at all doses; (d) synergistic growth stimulation with both G-CSF and GM-CSF. Leukemic cells of eight additional ANLL patients were incubated in a 3H-thymidine incorporation assay, and three patterns of reactivity to TNF were observed: (a) decreased 3H-thymidine uptake in the presence of TNF; (b) no response to TNF at all doses; and (c) increased 3H-thymidine uptake in response to TNF. Leukemic cells of 26 ANLL patients of various FAB-types were examined for the production of TNF mRNA by Northern blot analysis. TNF mRNA could be detected in cells of eight patients, predominantly in the M5B FAB type. Our data show that the growth response of leukemic cells to TNF is not uniform and was not determined by FAB category.
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PMID:Modulation of leukemic cell growth by tumor necrosis factor: action and expression in myeloid leukemia. 137 61

The karyotypes of 98 patients between the ages of 8 and 81 years with acute lymphoblastic leukemia (ALL), acute myeloid leukemia (AML), myelodysplastic syndromes (MDS), and chronic myeloid leukemia (CML) are presented. Although the well-described cytogenetic abnormalities associated with particular FAB subtypes in the West were observed, certain important local differences were noted. In ALL, hyperdiploidy was rarely observed, whereas the Philadelphia chromosome was observed in 50% of abnormal karyotypes. In AML, the t(8;21) was infrequently observed in M2 case, whereas trisomy 4 and 6, rarely reported elsewhere, formed 12% of the abnormal cases. In MDS, the incidence of -5/5q- and/or -7/7q- was 83% of cases with aberrant cytogenetic findings. Neither i(17q) nor an extra Ph was seen in 26 cases of CML including 9 cases of accelerated phase/blast crisis. In addition, previously unreported cytogenetic abnormalities occurring as single cases are presented. These findings are discussed in the context of geographical heterogeneity of chromosomal abnormalities in leukemia and emphasize the importance of continued epidemiologic studies of cytogenetics in hematologic malignancies.
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PMID:Cytogenetic analysis of hematologic malignancies in Hong Kong. A study of 98 cases. 139 2

Tremendous advances in our understanding of acute leukemia have been made through the development of new technologies and close collaboration between immunologists, molecular biologists, and clinical oncologists. These technological advances have included the development of monoclonal antibodies (MoAb) reactive with surface antigens on leukemic cells which can help confirm the lineage and diagnosis of acute leukemia. More importantly, MoAb in conjunction with morphology and cytochemical stains have led to the identification of FAB-MO and the more common recognition of FAB-M7. MoAbs have also helped define prognostic groups, e.g., T-cell leukemia, mature B-cell leukemia, and rare groups such as CD7+ AML. However, the greatest advances in our understanding of acute leukemia has occurred with the application of genetic techniques. Disregulation of genes responsible for normal growth and differentiation initiates the molecular events that lead to the transformation and proliferation of cells recognized clinically as leukemia. Non-random cytogenetic abnormalities apparently contribute to this gene disregulation and specific abnormalities are associated with clinically important subgroups. In acute lymphoblastic leukemia (ALL), the t(9;22), t(1;19), and t(4;11) appear to have a poor prognosis. In acute myeloblastic leukemia (AML), -7/7q-;-5/5q-, 11q23 abnormalities have poor outcomes while t(15;17) and in some series t(9;11), t(8;21), and inv(16) have a good response to therapy. Molecular studies of somatic cell (immunoglobulin and T-cell receptor) gene rearrangements have assisted in the diagnosis and classification of ALL. The application of the polymerase chain reaction technique to specific gene rearrangements has provided a useful approach to minimal residual disease. Specific gene activation (N-myc, evi-1) or fusion genes such as the alpha retinoic acid receptor (alpha RAR) and pml have been identified as the specific cause of some cases of leukemia. The cloning of specific chromosomal breakpoints identified in leukemia (as has been done for CML) will result in specific probes which can be used to make the diagnosis rapidly at the molecular level. Because of the tremendous number of recent developments, this paper will focus only on major developments that will soon have a clinical impact.
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PMID:Pathology and immunology of acute leukemia. 143 16

Advances in molecular genetics in the past decade enabled us to analyze the cause of mendelian disorders at molecular level and a variety of mutations, not only in point mutations and deletion in exons but also in those occurred in regulatory elements or in RNA processing have been precisely identified. Such a variety of mutations may constitute variable clinical manifestations even in the simple mendelian disorders. On the other hand, pathogenesis of common diseases is much complicated and remains greatly to be elucidated. However, if we could use the strategies applied in the past few years for mendelian disorders, it seems to be not difficult to approach them. It is recommended to categorize a certain disease into subgroups for distinguishing their heterogenous phenotypes by clinical, biochemical and other properties. Owing to the success in making a subgroup (FAB classification), many subtype-specific translocations were found in leukemia, and then, rearrangement of relevant genes is also being shown. The best example is seen in chronic myelocytic leukemia. Since rearrangement of ABL and BCR was shown and both genes were cloned, detection of minimal residual diseases after intensive treatment became possible at 10(-6) level using RT-PCR technique. Recently developed interphase cytogenetics using FISH has visualized Ph1 translocation in metaphase cells and also in round nuclei, suggesting a potential use in monitoring the effect of certain drugs during treatment. Furthermore, very selective targeting therapy is being devised using antisense DNA.
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PMID:[Present status of gene diagnosis in cancer]. 144 79

A case of trisomy 13 is presented: a 73-year-old man with acute nonlymphocytic leukemia (ANLL), FAB borderline M1/M2, and peripheral leukocyte and platelet counts that were difficult to control with chemotherapy. A literature review shows that 35 cases of trisomy 13 are known at present. They are characterized by male predominance (76%), preferentially myeloid disorders (ANLL, myelodysplastic syndromes, chronic myeloid leukemia), leucocytosis, and relatively high platelet counts and hemoglobins. It is suggested that trisomy 13 is a specific nosologic entity with male predominance and characterized by interference with proliferation and differentiation in the myeloid differentiation series.
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PMID:Trisomy 13: a preferentially male chromosome aberration interfering specifically with myeloid proliferation and differentiation? Report of a case and review of the literature. 175 88

Characteristic features of leukemia among atomic bomb survivors were studied. The ratio of a single leukemia type to all leukemias was highest for CML in Hiroshima, and the occurrence of CML was thought to be most characteristic for atomic bomb radiation induced leukemia. In the distribution of AML subtypes of FAB classification, there was no M3 cases in 1Gy or more group, although several atypical AML cases of survivors were observed. Chromosome study was conducted using colony forming cells induced by hemopoietic stem cells of peripheral blood of proximal survivors. Same chromosome aberrations were observed in colony forming cells and peripheral blood of proximal survivors.
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PMID:Atomic bomb and leukemia. 176 1

Recently, Molecular genetics has remarkably advanced and it is introduced in medicine. The use of recombinant DNA methods for the diagnosis of leukemias is reported with special reference to the contribution of cytogenetic findings, such as specific chromosome aberrations previously obtained. Therefore, cytogenetic studies on Ph1 chromosome and other specific aberrations found in leukemias are historically reviewed. Using Southern blotting, PFGE, PCR, and in situ chromosome mapping techniques we have analyzed many cases with CML and cases with ALL. We found M-bcr rearrangements not only in standard Ph1, but also in complex types and in Ph1 (-) ve CML. Chromosomal in situ hybridization was very informative identifying transposition of bcr and abl genes between chromosomes 22 and 9. In this connection, FISH (fluorescence in situ hybridization) technique was developed by us, which is expected to have an exceptional power of analysis. ALL had either M-bcr or m-bcr rearrangements, the latter being identified by PFGE. Next, application of PCR technique that enables to obtain more than 10(5) copies of target sequences could monitor minimal residual diseases in CML. Recently, the relevant gene were cloned respectively in FAB-M2 and APL (FAB-M3), so that detection of minimal residual diseases will be successfully performed in these types of leukemia. Finally, targeting chemotherapy using antisense sequences is prospectively described.
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PMID:[Advances in molecular genetic diagnosis of leukemia]. 181 42

Characteristic features of the leukemia among atomic bomb survivors were studied. Dose estimates of atomic bomb radiation were based on T65D, but the new dosimetry system DS86 was used for some analyses. The ratio of a single leukemia type to all leukemias was highest for CML in Hiroshima, and the occurrence of CML was thought to be most characteristic to atomic bomb radiation induced leukemia. The threshold of CML occurrence in Hiroshima is likely to be between 0.5-0.09 Gy. However, the threshold of acute leukemia appears to be nearly 1 Gy. In the distribution of AML subtypes by FAB classification, there was no M3 case in 1 Gy or more group, although several atypical AML cases of survivors were observed. Although aplastic anemia has not increased as a late effect of the atomic bomb radiation exposure, many atypical leukemia or other myeloproliferative diseases who had been diagnosed as aplastic anemia or its related diseases have been experienced among atomic bomb survivors. Chromosome study was conducted using colony forming cells induced by hemopoietic stem cells of peripheral blood of proximal survivors. Same chromosome aberrations were observed in colony forming cells and peripheral T-cells in several atomic bomb survivors.
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PMID:Atomic bomb and leukemia. 182 51

We have used genomic probes which specifically recognize DNA rearrangements of the RAR-alpha locus on chromosome 17q21 in patients with acute promyelocytic leukaemia (APL) and acute myeloid leukaemia (AML) subtypes. Molecular data were examined in comparison with morphological and immunophenotypic characterization at diagnosis in 20 hypergranular FAB M3 cases, five microgranular APL (M3v), 51 non-M3 AML and 12 myeloid CML blast crises. Rearrangements of the RAR-alpha locus were only detected in 23/25 APL cases and in none of the other FAB subtypes analysed. Surface marker characterization showed a consistent immunophenotypic profile--HLADR negative, CD9 and CD13/33 positive--in all M3 and M3v cases. Neither HLADR negativity nor CD9 positivity were associated with RAR-alpha rearrangements in non M3 AML. Our data indicate that RAR-alpha gene rearrangements are relevant diagnostic features of both M3 and M3v, and may prove useful molecular marker for follow-up analysis in APL patients.
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PMID:Rearrangements of the RAR-alpha gene in acute promyelocytic leukaemia: correlations with morphology and immunophenotype. 191 41

Indirect immunofluorescence staining with monoclonal antibody (MoAb) CL203.4 of malignant cells from 269 patients with hematologic malignancies showed a heterogeneous expression of CD54/intercellular adhesion molecule-1 (ICAM-1). This marker was expressed by malignant cells of 57 out of 118 patients with myeloid malignancies and 69 out of 135 with B-lymphoid malignancies. On the other hand, CD54 was not detected on malignant cells of 16 patients with T-lymphoid malignancies. In myeloid malignancies, CD54 is preferentially expressed by "stem cell-derived" malignancies, being detectable on blast cells from almost all patients affected by chronic myelogenous leukemia in blast phase or myelodysplastic syndromes and by only 34% of patients with de novo acute myeloid leukemia (AML). The expression of CD54 did not correlate with any specific myeloid FAB subtype, although three cases of highly undifferentiated AML (FAB MO) displayed maximal levels of the antigen. The expression of CD54 in AML was significantly associated with that of CD34 and HLA-DR antigens. In B-lymphoid malignancies, CD54 expression appears to correlate with the differentiation stage of malignant cells, since B-origin acute lymphoblastic leukemias and conventional B-chronic lymphocytic leukemias (B-CLL; ie, "dim SIg" CLL) expressed lower levels of CD54 than more mature lymphoproliferative disorders ("bright SIg" CLL, prolymphocytic leukemias, and lymphoplasmacytic tumors). "High-grade" B-cell non-Hodgkin's lymphomas (B-NHL) express in general a higher level of CD54 than "low-grade" ones. This finding in conjunction with the expression of CD54 in all 17 patients with "bright SIg" CLL investigated (characterized by marked organomegaly and poor prognosis) suggest that the differential expression of CD54 in lymphoproliferative disorders may also relate to their degree of malignancy.
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PMID:Differential expression of CD54/intercellular adhesion molecule-1 in myeloid leukemias and in lymphoproliferative disorders. 197 71

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