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)

Using a database comprising 13,266 cytogenetically abnormal neoplasms, the geographic heterogeneity of neoplasia-associated chromosomal abnormalities was investigated by comparing the frequencies of characteristic aberrations in consecutive series of patients with the same diagnosis. Significant frequency differences between geographic areas were found for the aberrations +8, i(17q), +19, and an additional Ph1 chromosome in chronic myeloid leukemia (CML); -5, 5q-, and +8 in acute nonlymphocytic leukemia (ANLL); t(8;21) in ANLL-M2; t(15;17) in ANLL-M3; 5q- and -7 in myelodysplastic syndromes (MDS); t(9;22) and +21 in acute lymphocytic leukemia (ALL); t(14;18) in follicular lymphoma; -8 and -22/22q- in meningioma; and structural abnormalities of 12q in pleomorphic adenoma of the salivary glands (PAS). No geographic incidence variation was detected for -7 and +21 in ANLL; +8 in MDS; 6q- and +8 in ALL; +12 in chronic lymphocytic leukemia; 6q- in non-Hodgkin's lymphoma (NHL); t(8;14) in Burkitt's lymphoma; t(11;22) in Ewing's sarcoma; i(12p) in germ cell tumors; 1p- in neuroblastoma; structural abnormalities of 3q, 8q, and 9p in PAS; or 3p- in renal cell carcinoma. Intraregional frequency similarities between cytogenetically identical abnormalities in related tumor types were also analyzed. No significant correlations were found regarding the incidence of 5q- in ANLL and MDS, 6q- in ALL and NHL, -7 in ANLL and MDS, +8 in ANLL and CML, +8 in ANLL and MDS, +8 in ALL and ANLL, or +21 in ALL and ANLL. The findings indicate that some geographic heterogeneity of tumor-associated aberrations exists both in hematologic neoplasms and in solid tumors.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Geographic heterogeneity of neoplasia-associated chromosome aberrations. 195 98

A cell line secreting a human monoclonal antibody was established by Epstein-Barr virus transforming B cells derived from an enlarged cervical lymph node excised from a patient bearing a carotid body tumor. The reactivity of the monoclonal antibody, designated as mNISP, was tested on various cells and cell lines. An antigen defined by the mNISP was expressed on some Burkitt's lymphoma cell lines and on a non-T non-B acute lymphoblastic leukemia cell line. Furthermore, this antigen was expressed on leukemic cells from 2 of 8 patients with chronic myelocytic leukemia, 2 of 10 patients with acute myeloblastic leukemia, one of 13 patients with acute lymphoblastic leukemia, and two patients with adult T cell leukemia, but it was not expressed on normal T, B and adherent (macrophage) cells. In addition, mNISP reacted with T cells obtained from human T-cell leukemia virus type I carriers. We found that the antigen defined by mNISP was distinct from any previously reported antigen in terms of its pattern of cellular expression and molecular weight, suggesting that mNISP recognizes a new antigen expressed on some lymphoid cells.
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PMID:Production and characterization of a human monoclonal antibody recognizing a new antigen expressed on some lymphoid cells. 213 42

Rearrangements of immunoglobulin and T cell receptor (TCR) genes have been demonstrated in malignant lymphoid tumors of B and T cell origin. In Philadelphia chromosome-positive chronic myeloid leukemia and acute lymphocytic leukemia cells the bcr and c-abl genes are reorganized and transcripts composed of both genes are expressed. We analyzed the organization of bcr, immunoglobulin and TCR genes in malignant lymphomas. Our data show that in all B cell lymphomas analyzed the JH genes and in some cases also the J kappa genes were rearranged. In a Burkitt lymphoma and in a Kil lymphoma distinct rearranged TCR gamma fragments were detected, in a second Burkitt lymphoma two rearranged TCR beta gene fragments occurred together with a rearranged JH gene fragment. In two T cell lymphomas rearranged TCR beta genes were observed; one of these lymphomas also carried rearranged TCR gamma and JH genes. In Hodgkin's disease in 3 out of 7 cases rearranged immunoglobulin genes were detected. In 1 case, which was diagnosed as a follicular hyperplasia, rearranged JH and TCR gamma fragments appeared. In none of the analyzed lymphomas could bcr rearrangements be observed.
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PMID:Analysis of immunoglobulin, T cell receptor and bcr rearrangements in human malignant lymphoma and Hodgkin's disease. 216 Jun 31

Although determination of chromosomal abnormalities may be of limited usefulness for the diagnosis of leukemia, the recent advances in the molecular mechanism associated with chromosome aberration has been rapid. Chromosome translocation in Burkitt lymphoma and chronic myeloid leukemia was the most striking evidence for the oncogene activation. Other specific chromosome abnormalities for FAB-classified leukemias are also known. Translocated type of chromosome abnormalities between immunoglobulin or T-cell receptor genes and oncogenes may also affect the T and B-cell leukemogenesis. However, the role of trisomies found in human and experimental leukemias and the gene dosages had been thought to be most important until 1982, has not been unclear. Many types of phenotypically heterogeneous leukemias have been reported. t(4 ; 11) acute leukemia is one such leukemia which shows early B-cell and myelomonocytic nature. Heterogeneous leukemias have been called biphenotypic, hybrid and acute mixed leukemias. The terminology must be used the unified. Recent trials to use paraffin-fixed tissues and bone marrow smear for molecular analysis has been successfully reported. Basic analysis on the DNA degradation mechanism revealed the enzymatic activity might play an important role before the complete fixation.
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PMID:[Chromosome aberrations and genes in human and experimental leukemias]. 219 1

Chromosome 1 is known to often be involved in various malignant diseases. Its numerical and structural aberrations have been observed in chronic and acute leukemias and solid tumors as well. Recently five protooncogenes have been assigned to the long and short arms of chromosome 1. The frequent and nonspecific occurrence of chromosome 1 rearrangements in human tumors suggests that they play an important role in the pathogenesis and progression of these diseases. The frequency, types, and time of the occurrence of chromosome 1 aberrations and their relation to the stage of the disease were studied in 317 patients with various malignant diseases. In ten patients nonrandom aberrations of chromosome 1 were observed. Two patients had CML, two PRV followed by ANLL, and the remaining six patients suffered from ANLL, ALL, Burkitt lymphoma, MF, SMMoL, and IRSA, respectively. In six patients, total or partial trisomy of the long arm or of the whole chromosome 1 was present, and in three cases balanced translocations involving chromosome 1 could be found. In the cells of one patient a duplication of the centromeric heterochromatin was seen. We analyzed the breakpoints involved. Finally, the aberrations of chromosome 1 were almost always be observed at the terminal stage of the diseases.
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PMID:Abnormalities of chromosome 1 in relation to human malignant diseases. 259 63

In the last ten years molecular biology has defined the role of oncogenes in the pathogenesis of malignant blood diseases. Included among these are: chronic myelogenous leukemia, with abl oncogene; Burkitt's lymphoma, where myc oncogene is translocated from chromosome 8 to chromosomes 2, 14 or 22 near immunoglobulin genes; some acute myelogenous leukemias; myelodysplastic syndromes with deletion of the long arm of chromosome 5.
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PMID:[Oncogenes and malignant hemopathies]. 269 Feb 19

Somatic cell hybrids, obtained after fusion of translocation (11;22)-positive Ewing sarcoma cells and Chinese hamster fibroblasts, were assayed for the presence of immunoglobulin C lambda, Philadelphia chromosome breakpoint cluster region, and c-sis oncogene sequences. It was found that c-sis was translocated from chromosome 22 to chromosome 11 in the Ewing sarcoma cells used, indicating that the breakpoint must be proximal to this locus. Moreover, we found that the chromosome 22-linked C lambda and breakpoint cluster region sequences are not translocated. This result confirms an earlier cytogenetic observation that the Ewing sarcoma-associated breakpoint in chromosome 22 is distal to those observed in translocation (8;22)-positive Burkitt lymphoma and in Philadelphia chromosome-positive chronic myeloid leukemia.
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PMID:Translocation of oncogene c-sis from chromosome 22 to chromosome 11 in a Ewing sarcoma-derived cell line. 298 95

Within a very short time the application of molecular biology to cancer research has resulted in an essential change and extension of our knowledge of transformation processes and tumor development. For the first time these mechanisms can be understood in a causal manner and causal cancer therapy seems to be possible in the near future. In this manuscript an attempt is made to give a brief survey of the influence of oncogenes on carcinogenesis. An account is given of the origin of viral oncogenes, viral mechanisms of cell transformation and activation of cellular oncogenes. Additionally, kinetics and targets of tumor proteins are discussed. The complexity and diversity of genetic regulation of growth and differentiation is discussed in some well known diseases such as chronic myeloid leukemia, Burkitt lymphoma, retinoblastoma and acute myeloid leukemia.
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PMID:[Oncogenes]. 303 83

It is clear that there are at least two classes of cancer-related genes. The more characterized of these are the oncogenes, whose activation appears to play a major role in human neoplasia. There are now two families of oncogenes, the myc and ras families, whose cooperation seems capable of transforming normal cells in culture to tumorigenic cells. As such, they appear to form complementation groups with immortalizing and transforming properties, respectively. Moreover, the oncogenes can be subclassified as tyrosine kinases or kinase related, GTP binding proteins, growth factors or growth factor receptors or nuclear proteins. More than 20 viral oncogenes have been identified, for which more than 30 proto-oncogenes or pseudogenes exist in the human genome. Many of these have been cloned, characterized to some extent, and mapped to particular chromosomes or regions of chromosomes. Further, more than 20 additional putative oncogenes or transforming genes have been identified by tumor DNA transfection studies or at sites of integration or translocation for which no viral transforming gene cognates exist. Oncogenes can be activated by increased or unregulated expression, increased copy number (duplication, amplification), or somatic mutation resulting in a protein with increased oncogenic potential. Examples of all of these mechanisms can be found in several specific human cancers or leukemias. The cytogenetic correlate of enhanced expression is a translocation between two chromosomes at specific breakpoints with no net loss of genetic material (e.g., increased c-myc expression resulting from the 8;14 translocation in Burkitt's lymphoma). The phenomenon of increased gene copy number can sometimes be visualized as trisomy or tetrasomy for a particular chromosome but more dramatically as the development of extrachromosomal DMs or as chromosomally integrated HSRs (e.g., the N-myc gene amplification seen in neuroblastoma). Finally, certain somatic mutations can be associated with translocations (e.g., the bcr/abl fusion product created as a result of the 9;22 translocation in chronic myelogenous leukemia), but they are more commonly submicroscopic (as characterized by point mutations in the ras gene family). Evidence is accumulating for a second class of cancer-related genes whose absence or inactivation is associated with tumorigenesis. These genes are associated at the cytogenetic level with chromosomal deletions, in which the breakpoints may be variable, but specific, common regions are consistently deleted.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The involvement of oncogenes and suppressor genes in human neoplasia. 331 93

Nonrandom patterns of chromosome abnormality in tumors are providing clues to the location of oncogenes and their activation mechanisms. Studies of translocations in Burkitt's lymphoma cells have shown that the c-myc proto-oncogene is consistently juxtaposed with a rearranged and transcriptionally active immunoglobulin gene locus, with resultant myc gene deregulation. In other B cell tumors, translocations appear to bring previously unrecognized oncogenes (bcl-1, bcl-2) into similar association with the immunoglobulin heavy-chain locus. T cell receptor genes may also "activate" known and unknown oncogenes after chromosome translocation. In chronic myelogenous leukemia, the translocated c-abl oncogene forms a "hybrid" gene in its new location on the Philadelphia chromosome, with altered function. Gene amplification units, seen as cytogenetically homogeneous staining regions in chromosomes or as double-minute bodies in metaphases, can represent multiple copies of oncogenes and be important in late stages of tumor progression. Other significant alterations in gene dosage, recognized as gain or loss of all or part of a specific chromosome, also occur in human neoplasms, but their specific role in carcinogenesis is largely undefined.
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PMID:Chromosomal approaches to the molecular basis of neoplasia. 332 6

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