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)

The state of T-cell receptor beta-chain gene rearrangement in human T-cell leukaemias has been analysed. All forms of leukaemia tested (T-CLL, ALL, PLL, Sezary syndrome and ATL) exhibit rearrangements of C beta genes confirming the clonality of these neoplasias. However we find no evidence for common gene rearrangements nor for restricted rearrangement patterns within this type of neoplasia. We find evidence of T-cells with C beta 1 and C beta 2 rearrangements, sometimes associated with Igh JH rearrangements, but several cases of T-cell leukaemia with a marker inversion of chromosome 14 (q11;q32) do not have Igh JH rearrangements. The results suggest that TCR beta gene rearrangement occurs early in T-cell ontogeny but that this rearrangement is most often irrelevant to leukaemogenesis.
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PMID:Heterogeneity of T-cell beta-chain gene rearrangements in human leukaemias and lymphomas. 300 Jul 64

A novel surface molecule, Tp90, is described which appears to be involved in an antigen-independent pathway of human T lymphocyte activation. The Tp90 molecule was identified by a monoclonal antibody (mAb), MX20, obtained from a fusion using spleen cells of a mouse immunized with cells from two T cell leukemia lines, Jurkat and HPB-ALL. Biochemical data show that Tp90 is distinct and physically independent from the structures already known to be involved in T cell activation, namely T11, T44 or T3/TCR. These results were confirmed by antibody-induced antigen modulation experiments. Modulation of Tp90 had no effect on the expression of T3 and of the T cell receptor. Conversely, the expression of Tp90 was not affected by modulation of the T3/TCR molecular complex by either anti-T3 or anti-TCR antibody. Functional studies showed that anti-Tp90 mAb MX20 induced high levels of interleukin 2 production in Jurkat cells. Modulation of the T3/TCR complex significantly decreased the response of Jurkat cells to stimulation by antibody MX20, suggesting that the T3/TCR complex regulates the ability of the Tp90 molecule to induce IL 2 synthesis. In addition to its effect on Jurkat cells, anti-Tp90 mAb was found to be mitogenic for peripheral blood T cells. As the magnitude of the proliferative response elicited by anti-Tp90 mAb was lower than that induced by anti-T3 mAb, the possibility was considered that only a subpopulation of T cells is reactive with anti-Tp90. Indeed as determined by FACS analyses, only 3-14% of E-rosette-positive cells were stained with mAb MX20. In addition, multicolor flow cytometry analysis showed that the Tp90+ cells belong preferentially to the CD8 subset.
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PMID:A novel 90-kDa polypeptide (Tp90) possibly involved in an antigen-independent pathway of T cell activation. 303 40

During recent years cloning of the genes encoding the immunoglobulin (Ig) and T-cell (TCR) antigen receptor has made it possible to analyze clonal expansions of B- or T-cells at the molecular level. We here describe the usefulness of the Ig- and TCR-gene rearrangements in selected cases of malignant lymphoma. In contrast to all other cases investigated, one non-Hodgkin's lymphoma (NHL) exhibited the infrequent phenomenon of oligoclonality, i.e. three distinct B-cell clones were discerned by Southern blot analysis. Detection of clonal TCR- and Ig-gene rearrangements unequivocally documented bone marrow involvement in four of eight NHL-patients, where conventional histologic and cytologic examination remained inconclusive. As expected, analysis of bone marrow DNA revealed clonal Ig-gene rearrangements in three cases with clear histologic evidence of bone marrow infiltrations by the NHL. In one case of a patient with acute mixed lymphoid-myeloid lineage leukemia a previously identified clonal Ig-gene rearrangement vanished after successful chemotherapy. Analysis of Ig- and TCR-gene rearrangements promises to be a very useful diagnostic tool in selected cases of lymphoid neoplasia.
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PMID:[Rearrangements of immunoglobulin and T-cell-antigen receptor genes as diagnostic markers in lymphatic neoplasms]. 308 5

A process unique to lymphocyte differentiation is the rearrangement of genes encoding antigen-specific receptors on B and T cells. A mouse mutant (C.B-17scid) with severe combined immune deficiency, i.e., that lacks functional B and T cells, shows no evidence of such gene rearrangements. However, rearrangements were detected in Abelson murine leukemia virus-transformed bone marrow cells and in spontaneous thymic lymphomas from C.B-17scid mice. Most of these rearrangements were abnormal: approximately 80% of Igh rearrangements deleted the entire Jh region, and approximately 60% of TCR beta rearrangements deleted the entire J beta 2 region. The deletions appeared to result from faulty D-to-J recombination. No such abnormal rearrangements were detected in transformed tissues from control mice. The scid mutation may adversely affect the recombinase system catalyzing the assembly of antigen receptor genes in developing B and T lymphocytes.
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PMID:Rearrangement of antigen receptor genes is defective in mice with severe combined immune deficiency. 309 81

In acute lymphoblastic leukemia (ALL) diagnostic samples and cell lines with unequivocal B cell precursor (common) or T cell precursor immunophenotypes, there is inappropriate or cross-lineage IgH or T cell receptor beta gene (TCR beta) rearrangement in approximately 25% of the cases. The frequency of such rearrangements is lower in mature lymphoid neoplasms and acute myeloblastic leukemia. The most immature B lineage ALL ('null' ALL) has a much lower frequency of TCR gene rearrangement than the common variant of B cell precursor ALL and also has a high frequency of oligoclonal rearrangements of IgH genes. Non-T leukemic cells with inappropriately rearranged TCR beta gene did not necessarily have a rearranged TCR gamma gene. Inappropriately rearranged IgH or TCR genes are usually not expressed at the mRNA level, and the gene for the TCR associated protein T3 delta is not detectably expressed at the mRNA or protein level in leukemias classified unambiguously as non-T. Five cases of acute leukemia with ambiguous or mixed lineage immunophenotypes (myeloid + T or myeloid + B) are described. These five had diverse patterns of IgH, TCR beta, and TCR gamma rearrangement, and all expressed terminal transferase concomitantly with MY9 (CD33). The T3 delta gene was expressed in two cases, which also expressed other T cell markers indicating that coordinated lymphoid lineage programs had been initiated. The implications of these observations for lineage-associated regulation of genes during normal differentiation and leukemogenesis are discussed.
Leukemia 1987 Sep
PMID:Lineage specificity of rearrangement and expression of genes encoding the T cell receptor-T3 complex and immunoglobulin heavy chain in leukemia. 311 13

Studies of Ig and TCR genes in transformed lymphocytes of scid mice have revealed aberrant DNA rearrangements. Here we present a more detailed analysis of the Igh gene recombination in nine scid pre-B cell lines transformed by Abelson murine leukemia virus. We found 85% of the rearranged Igh alleles to contain abnormal Dh-Jh deletions of varying size. All of these deletions encompassed Jh elements and extended into the Igh enhancer region, occasionally involving the switch (S) region of the C mu gene. Some of these rearrangements removed most of the Dh elements, but none appeared to extend to the Vh genes. DNA sequence analysis of the two abnormally rearranged Igh alleles in one pre-B cell line showed that no Dh or Jh coding sequences were retained at the recombination sites though heptamer-like (CACTGTG) recognition signal sequences were present in the absence of nonamer (GGTTTTTGT) recognition signal sequences. These results imply that a deregulated recombinase activity may be responsible for the abnormal Dh-Jh deletions and the absence of Vh-Dh joining in established lines of Abelson murine leukemia virus-transformed scid pre-B cells.
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PMID:Abnormal recombination of Igh D and J gene segments in transformed pre-B cells of scid mice. 313 29

Rearrangement of the beta and gamma chain genes of the TCR gene complex and of the Ig heavy chain genes were examined in three cases of childhood acute mixed lineage leukaemia. Blast cells, classified morphologically as acute lymphoblastic leukaemia (ALL) in one child and acute non-lymphocytic leukaemia (ANLL) in the other two, all co-expressed markers associated with both T (CD7, TdT) and myeloid (CD33) cells. Cytogenetic analysis detected abnormalities associated with myeloid leukaemia. Immunoglobulin heavy chain genes were not rearranged in two patients but a novel rearrangement was seen in the third. No rearrangement of the beta or gamma chains of the T-cell receptor complex were seen. Acute mixed lineage leukaemia may thus arise from a pluripotent precursor cell capable of both lymphoid and myeloid differentiation.
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PMID:Rearrangement of T-cell receptor and immunoglobulin heavy chain genes in childhood acute mixed lineage leukaemia. 314 5

DNA spanning a t(7;19) chromosomal translocation breakpoint was isolated from the human T cell line SUP-T7 established from an acute lymphoblastic leukemia. Nucleotide sequence analysis showed that the point of crossover on chromosome 7 occurred immediately adjacent to joining segment J beta 1.1 within the TCR-beta gene, suggesting that this translocation resulted from an error in TCR gene rearrangement. On chromosome 19, the translocation occurred within a previously uncharacterized transcriptional unit for which we propose the name lyl-1. An approximately 1.5-kb RNA is transcribed from this gene in a wide variety of hematolymphoid cell lines. The t(7;19) results in truncation of the lyl-1 gene and production of abnormal-sized RNAs, suggesting a role for lyl-1 in the pathogenesis of this leukemia.
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PMID:Chromosomal translocation involving the beta T cell receptor gene in acute leukemia. 316 54

Human T lymphocytes express either alpha/beta- or gamma/delta-TCR in association with the CD3 complex. We have isolated a mAb, delta TCS1, that immunoprecipitated the gamma/delta-TCR heterodimer from cell lysates of Peer and Molt-13 leukemia cell lines. After dissociation of the gamma- and delta-chains of TCR by treatment with SDS, delta TCS1 specifically immunoprecipitated the delta-chain. This antibody bound to the surface of other gamma/delta-positive T cell lines and clones and was able to stimulate the proliferation of a minor cell population (0.9 to 4.0%) of resting human PBL. Upon binding to gamma/delta-TCR-bearing Molt-13 cells and PBL, delta TCS1 elicited a fura-2 Caa+ signal indicating that the gamma/delta-receptor is functionally similar to the alpha/beta-heterodimer. These data indicate that the delta TCS1 antibody recognizes an epitope on TCR delta-chain and its mitogenic activity should be useful in characterizing the functional properties of human gamma/delta-positive T lymphocytes.
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PMID:Signal transduction of gamma/delta T cell antigen receptor with a novel mitogenic anti-delta antibody. 326 50

Leu 23 is a human cell surface differentiation Ag expressed very early during lymphoid cell activation. Resting T lymphocytes do not express Leu 23. However, expression of Leu 23 glycoprotein can be induced on the Jurkat T leukemia cell line within a few hours after stimulation with soluble anti-CD3 mAb or Con A. After removal of the stimulus Leu 23 is expressed for greater than 30 h. A total of 20 to 30% of resting human thymocytes was unexpectedly stained by anti-Leu 23 mAb. Biochemical analysis revealed that the Leu 23 Ag expressed on thymocytes is a phosphorylated disulfide-linked dimer composed of 28- and 32-kDa subunits. Within the thymus, Leu 23 is preferentially expressed on the CD3bright, mostly CD4+ CD8- or CD4- CD8+ subpopulations. By contrast, CD3dim CD4+CD8+ thymocytes expressed only very low levels of Leu 23, and CD7+ CD3- CD4- CD8- thymocytes were Leu 23-. However, Leu 23 was induced on the CD3dim thymocytes by in vitro culture of thymocytes with anti-CD3-conjugated Sepharose. The transition from CD3dim to CD3bright within the thymus may be an important differentiation stage and influence selection of the antigenic repertoire. Therefore, the ability to detect subpopulations within the thymus that express Leu 23 Ag may help to identify thymocytes activated in vivo, possibly by the functional engagement of their CD3/TCR.
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PMID:Constitutive expression of a phosphorylated activation antigen (Leu 23) by CD3bright human thymocytes. 326 63

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