UMLS:C0023418 - FACTA Search

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

Avian myelocytomatosis virus MC29 is a replication-defective acute leukaemia virus which induces a variety of tumours in chickens including sarcomas, renal and hepatic carcinomas, and myelocytomatosis. The oncogenic potential of the virus is mediated by the gene v-myc, acquired from sequences (c-myc) present in normal uninfected chicken DNA. Sequences closely related to chicken c-myc have been highly conserved throughout evolution, from Drosophila to vertebrates. The hypothesis that c-myc may be involved in neoplastic transformation has been strengthened by the finding that B-cell lymphomas induced in chickens by avian leukosis virus (ALV) are often associated with increased expression of c-myc resulting from integration of the ALV provirus adjacent to the c-myc gene. More recently, it has been demonstrated that the malignant human cell line HL-60, derived from the peripheral blood leukocytes of a patient with acute promyelocytic leukaemia, expresses elevated levels of myc-related mRNA associated with an amplification of the c-myc gene. To explore the relationship of the human cellular myc gene with the corresponding viral oncogene from MC29, and to provide a framework for the analysis of the mechanism and significance of c-myc amplification in human tumours, we have isolated and determined the nucleotide sequence of a genomic clone prepared from a normal human library which contains all domains sharing homology with v-myc.
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PMID:Identification and nucleotide sequence of a human locus homologous to the v-myc oncogene of avian myelocytomatosis virus MC29. 629 32

Cas-Br-M, a cloned ecotropic murine leukemia virus (MuLV) of wild mouse origin that induces both neurogenic hindlimb paralysis and lymphomas, was injected into NFS/N inbred mice neonatally. Then the mice were observed for the development of neurologic disease and tumors. All mice manifested neurologic abnormalities by 6 months of age, and 58% of the animals died with hematopoietic neoplasms. The tumors included T- and B-cell lymphomas, lymphoblastic lymphoma, erythroleukemias, myelogenous leukemias, and a megakaryocytic leukemia. Cas-Br-M thus appeared to be unique among ecotropic MuLV in inducing a wide spectrum of hematopoietic tumors.
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PMID:Histologic and cell surface antigen studies of hematopoietic tumors induced by Cas-Br-M murine leukemia virus. 631 93

Neonatal infection of C57BL and BALB/c mice by cloned ecotropic and dualtropic mink cell focus-inducing (MCF) murine leukemia viruses (MuLV) induces a wide spectrum of different lymphomas of T, B, and non-T/non-B cell types. Oncogenic dualtropic MCF viruses and poorly oncogenic ecotropic MuLV act synergistically in lymphomagenesis. Within one mouse strain virus-induced T-cell lymphomas arise earlier than B-cell lymphomas after neonatal inoculation of a single-cloned MuLV. The host genetic constitution, notably the H-2 complex has a marked influence on lymphoma type. This H-2 influence can be explained by an H-2-linked difference in penetration of the thymus early in life by oncogenic thymotropic MuLV, which in turn is correlated with, but not necessarily due to the magnitude of the anti-MuLV antibody response.
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PMID:Ecotropic and dualtropic mink cell focus-inducing murine leukemia viruses can induce a wide spectrum of H-2 controlled lymphoma types. 633 56

Human T-cell leukaemia-lymphoma virus (HTLV) was first isolated in the United States from a patient with an aggressive form of cutaneous T-cell lymphoma (CTCL) and was later found associated with clusters of adult T-cell leukaemia-lymphomas (ATL) in various parts of the world, including Japan and the Caribbean. Leukaemic cells of the HTLV-positive patients seem to be clonal expansions of single infected cells since the provirus(es) are found at the same sites in a given patient. In avian leukosis virus-induced B-cell lymphomas, the provirus very frequently integrates at several discrete sites in a common domain near the cellular gene, c-myc, that it activates and it has been speculated that the same would hold true for other chronic leukaemia viruses. We report here that cultured cells from two US patients with CTCL and fresh leukaemia cells of a Japanese patient with ATL contained an HTLV provirus integrated at the same site. In addition, a cord blood T-lymphocyte cell line established by co-cultivation with one of the two HTLV-positive CTCL cell lines also contained HTLV provirus contiguous with the same flanking cellular sequences. Ten other HTLV-positive cell samples did not show integration of HTLV at this site, suggesting that there is more than one discrete site of HTLV integration in tumour cells.
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PMID:Common site of integration of HTLV in cells of three patients with mature T-cell leukaemia-lymphoma. 640 Jun 97

In human blood and bone marrow, dipeptidylaminopeptidase IV (DAP IV; EC 3.4.14.5) selectively occurs in T lymphocytes bearing Fc receptors for IgM. In the present study 35 cases of lymphoblastic lymphoma and leukemia were analysed for the specificity, incidence and reaction pattern of DAP IV. On the basis of immunohistochemical staining with monoclonal antibodies and enzyme cytochemical staining for acid phosphatase, 12 cases were classified as B-type neoplasms. In 23 cases T-cell properties were expressed to different extents, apparently reflecting different categories of maturation. Whereas B-cell lymphomas were invariably negative for DAP IV, seven of the 23 T-lymphoblastic lymphomas/leukemias showed this enzyme. Thus DAP IV is a highly specific marker for a distinct T-cell subpopulation, apparently irrespective of the stage of differentiation.
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PMID:Cytochemical distribution of dipeptidylaminopeptidase IV (DAP IV; EC-3.4.14.5) in T-lymphoblastic lymphoma/leukemia characterized with monoclonal antibodies. 637 9

Total cellular polyadenylated RNA from a variety of fresh human lymphoma and leukemia cells, characterized by histopathology and certain cell surface markers, was analyzed for the expression of three distinct cellular oncogenes (c-onc genes), c-erbB, c-myc and c-myb by dot-blot hybridization assays. Probes used were molecularly cloned DNA containing the respective oncogene sequence of avian erythroblastosis virus, myelocytomatosis virus (MC29) and myeloblastosis virus. All lymphoma-leukemia cells irrespective of B, T or non-B/non-T lymphocyte lineage expressed the c-erbB locus. This gene was also found to be active in normal peripheral blood lymphocytes and lymphocytes from lymph nodes showing reactive hyperplasia. This observation suggested that c-erbB might be normally involved in cell growth functions since it was not unique to hematopoietic malignancies. In contrast to c-erbB, elevated expressions of c-myc or c-myb were detected in certain neoplasms of B-lymphocytes and some other lymphoproliferative disorders as compared to the majority of the samples tested which showed either low or undetectable levels of these transcripts. An examination of B-cell lymphomas and leukemias in which the majority of the cellular populations expressed either Kappa or lambda surface lg light chain molecules revealed variations in the levels of c-onc transcripts within a morphologic and immunologic subtype. These findings support the notion that, in general, genetic heterogeneity exists in groups of hematopoietic proliferations defined by conventional histopathologic and immunologic criteria. Although with the majority of the specimens there was no obvious correlation between the morphologic cell type of lymphoma/leukemia and the c-onc RNA levels, interestingly two of the three samples diagnosed as chronic lymphocytic leukemia, B-cell type, showed considerably increased transcription of the c-myc gene relative to the other B-cell neoplasms. Thus a class of differentiated B-cell leukemia has been identified in which the molecular mechanisms which affect c-myc gene expression can now be investigated.
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PMID:Differential expression of c-erbB, c-myc and c-myb oncogene loci in human lymphomas and leukemias. 660 29

In an effort to identify cellular proteins that may be involved in the Abelson murine leukemia virus (A-MuLV) transformation process, we have isolated a hybridoma antibody (6C3) that detects a tumor-associated antigen in all A-MuLV-induced pre-B-cell lymphomas. The 6C3 antibody immunoprecipitates two molecules of Mr 160,000 and Mr 125,000 from metabolically labeled A-MuLV tumors. The two proteins recognized by the 6C3 antibody are distinct from the A-MuLV-transforming protein in that they lack viral gag determinants and are neither phosphoproteins nor protein kinases. The 6C3 proteins can be detected in all A-MuLV pre-B-cell lymphomas and some nonviral B lymphomas but are not detected on any other tumor or normal cell, including A-MuLV-transformed fibroblast lines. Thus, the 6C3 proteins may represent the products of novel cellular genes whose expression is induced, stabilized, or amplified in B-cell tumors of both viral and nonviral origin. Further evidence in support of this hypothesis is provided by the finding that 6C3 antigen expression correlates with autonomous cell growth and the transformed phenotype in both normal bone marrow cultures and those infected with A-MuLV.
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PMID:Transformation-associated proteins in murine B-cell lymphomas that are distinct from Abelson virus gene products. 661 51

Genetic changes involving the c-myc oncogene have been observed in human tumours. In particular, the c-myc gene is translocated in Burkitt's lymphoma and is amplified in the human promyelocytic leukaemia cell line, HL-60, which contains double minute chromosomes (DMs). More recently, an amplified c-myc gene has been positioned on a chromosomal homogeneous staining region (HSR) in a human colon cancer cell line, COLO 320, with neuroendocrine properties. Furthermore, c-myc is expressed in increased amounts in some human tumour lines, and in some cases, human small cell lung cancers (SCLC) contain DMs and HSRs. These findings prompted us to study the c-myc gene and its RNA expression in a series of human lung cancer cell lines. We now report amplification and expression of the c-myc oncogene in a system other than B-cell lymphomas, namely human lung cancer. Of 18 human lung cancer cell lines tested, 8 showed an amplified 12.5-kilobase (kb) EcoRI c-myc DNA band. Of particular interest are five SCLC lines with a high degree of c-myc DNA amplification (20-76-fold) and greatly increased levels of c-myc RNA. All five lines reside in the variant class of SCLC (SCLC-V) characterized by altered morphology, lack of expression of some SCLC-differentiated functions and more malignant behaviour than pure SCLC. Three of the five lines which have been karyotyped also contain DMs or HSRs. The finding of a greatly amplified c-myc gene in all cell lines of the SCLC-V class examined strongly suggests a role for the c-myc gene in the phenotypic conversion and malignant behaviour of human lung cancer.
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PMID:Amplification and expression of the c-myc oncogene in human lung cancer cell lines. 664 1

This study was carried out to determine the reactivity of the Leu-1 mouse monoclonal antibody with B-chronic lymphocytic leukemia and other B-cell leukemias. This antibody has been previously reported to recognize a surface antigen expressed by almost all human thymocytes and peripheral T cells. It was also detected on surface immunoglobulin-bearing cells of most patients with chronic lymphocytic leukemia but was not detectable in normal B-cells and B-cell lines. In the present series, the neoplastic lymphocytes in 33 cases of B-chronic lymphocytic leukemia expressed surface immunoglobulin, Ia antigen, and receptors for Fc, C3, and mouse erythrocytes. All but one case expressed the Leu-1 antigen as detected by indirect immunofluorescence using flow cytometry. In three other cases, the leukemic cells in the peripheral blood reacted with anti-Leu-1, whereas the bone marrow lymphocytes did not. Moreover, quantitative differences in the surface density of Leu-1 were apparent by flow cytometry. The peripheral blood and bone marrow lymphocytes in other B-cell leukemias, including 15 cases of leukemic B-cell lymphomas and three cases of hairy-cell leukemia, failed to stain positively with the anti-Leu-1 antibody. The recognition of the Leu-1 antigen adds to the phenotypic characterization of b-chronic lymphocytic leukemia and may contribute to a better understanding of the pathogenesis of the disease and its expression in different tissues.
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PMID:Characterization of B-cell type chronic lymphocytic leukemia cells by surface markers and a monoclonal antibody. 675 36

Tumor cells from a total of 116 children with non-Hodgkin's lymphoma were studied for their pattern of reactivity with a battery of cell markers, including their capacity for spontaneous formation of sheep erythrocyte rosettes (E-rosettes), demonstration of surface immunoglobulins (SIg), and positivity with antisera against T-cell antigens, the common acute-lymphoblastic-leukemia-associated antigen (cALLa), and Ia-like antigens. Fifty-eight children (50%) had T-cell lymphomas, including all those with mediastinal tumors. Fifty children (43%) had B-cell lymphomas, including 44 of the 45 with abdominal primaries. Eight children (7%) had non-T, non-B tumors, 4 of whom presented at a young age with cutaneous lymphoblastic tumors. These results demonstrate that the great majority of children with NHL, not leukemic at diagnosis, have tumors clearly committed to either T- or B-cell differentiation pathways and only rarely exhibit the common ALL phenotype (cALLa+, Ia+, E-, T-, SIg-), contrasting with the distribution of childhood lymphoblastic leukemias. The unusual association of these non-T, non-B cases with skin involvement has not previously been reported, raising speculation regarding patterns of lymphocyte traffic and origins of childhood lymphomas and leukemias.
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PMID:Non-T, non-B lymphomas are rare in childhood and associated with cutaneous tumor. 697 84

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