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)

During the diagnostic investigation of 750 acute leukemias, nine cases were morphologically, cytochemically, and phenotypically undifferentiated. In seven of these cases the blasts were class II+, CD34+ and TdT+, in one were class II+, TdT+, CD7+ while in the remaining leukemia blasts expressed class II only. Cytoplasmic and membrane CD22, CD3, CD13, and Ig as well as membrane CD19, CD10, CD37, CD2, CD33, CD14, glycophorin C, and CD61 were absent. The further characterization of these rare leukemias yielded the following results. The TCR-beta, -gamma and -delta genes were in germline configuration in seven cases studied while IgH genes were rearranged on both alleles in two cases and germline in the other five. By ultrastructural analysis peroxidase activity was detected on unfixed cells in a minority of blasts from four of seven cases. In two of the peroxidase-positive cases a small proportion of blasts also reacted with an anti-myeloperoxidase monoclonal antibody. In one of the peroxidase-negative cases, 7% of blasts were labeled by the antibody, suggesting the presence of peroxidase in its proenzyme form. Importantly, the two cases with Ig gene rearrangements did not have cytochemically or immunologically detectable peroxidase. Three of the nine patients were treated as ALL while six received AML chemotherapy. In five patients complete remission was achieved while the other four died from infections during remission induction. Four patients are still in remission 7, 12, 24, and 30 months after diagnosis while one patient relapsed after 12 months. In conclusion, we have characterized the genotypic and ultrastructural features of subtype of acute leukemia in which blasts expressed immaturity markers and lacked lineage associated antigens. In contrast to previously reported "unclassifiable" cases, the leukemias were phenotypically homogeneous and showed a good response to chemotherapy.
Leukemia 1990 Sep
PMID:Phenotypic, genotypic, cytochemical, and ultrastructural characterization of acute undifferentiated leukemia. 239 82

In this study, we first established several CTL clones of (BALB/c x C57BL/6)F1 origin that were specific for either syngeneic UV female 1 or UV male 1 fibrosarcoma cell lines. All the CTL clones had Thy-1+ Lyt-2+ L3T4- phenotypes and showed Kd restriction when lysing the corresponding target cells. Sera obtained from syngeneic animals immunized with three CTL clones, 10B-5 for UV female 1, and CTL9 and CTL10 for UV male 1, showed specific inhibition of target cell lysis with the corresponding CTL clones. The inhibitory activities were found in sera of the majority of immunized animals. Because the inhibitory activity resides in protein A-binding fraction, mAb were produced by hybridizing spleen cells of hyperimmune animals. N1-56 was thus obtained from a mouse immunized with 10B-5 CTL clone reactive with UV female 1. N1-56 was clonotype specific, reacting with 10B-5 but not with other CTL lines or leukemia cell lines. No N1-56+ cells were detectable in thymocytes, lymph node cells, or spleen cells of either naive or UV female 1-immune CB6F1 mice. Immunoprecipitation showed that N1-56 reacts with 90,000 Mr molecules on 10B-5 CTL clone under nonreducing conditions and 45,000 Mr molecules under reducing conditions, indicating its reactivities with idiotypic determinants of TCR on the CTL clone. N1-56 inhibited lytic activity of 10B-5, but neither N1-56 nor alpha-10B-5 hyperimmune serum inhibited that of alpha-UV female 1 mixed lymphocyte tumor cell culture cells. N1-56 induced proliferation of 10B-5 without addition of Ag.
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PMID:Anti-idiotypic antibodies against UV-induced tumor-specific CTL clones. Preparation in syngeneic combination. 246 May 58

The organization of immunoglobulin heavy chain (IgH) gene of B precursor cell acute lymphoblastic leukemia (ALL) was examined in order to elucidate the mechanism causing simultaneous TCR gene rearrangements. Study using a 5'D probe lying 20 kb upstream of IgH D region genes was useful to distinguish diversity(D)-joining(J) recombination(DJ) from variable(V)-DJ recombination(VDJ). Indeed, IgH gene structures determined by 5'D study well correlated to those recognized by DJ or VDJ transcripts. IgH gene rearrangements of B precursor cell ALL showed developmentally restricted gene recombination; DJ/DJ genotype in the most immature stage and VDJ/VDJ genotype in the relatively mature stage. B precursor cell ALL with simultaneous rearrangements were frequently found in relatively mature cells, i.e., CD20 expressing cells on their surface. Furthermore, most of such dual genotypic ALL showed that at least one allele of IgH genes was VDJ recombination. This finding suggests that dual genotype was the incidental product by a putative common recombinase during the process of VH gene rearrangements. Moreover, since IgH gene rearrangements of acute unclassified leukemia with dual genotype were DQ52 genotype, which indicates abortive gene rearrangements, it was also thought that dual genotype occurred due to the pluripotentiality of the stem cell.
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PMID:A mechanism for cross-lineage gene rearrangements in B-cell neoplasm. 251 16

Normal B lymphocytes are characterized by rearrangement and expression of immunoglobulin genes, but not of T cell receptor genes. These properties might assist in lineage assignment, but there are examples of fresh leukemic cells and of cell lines where exceptions to this rule have been noted. We have studied cell samples of patients with B-CLL for expression of TCR alpha and beta chain genes. Using in situ hybridization with fluorescein-labeled probes, TCR alpha mRNA was found to be expressed in 14 of 18 samples and TCR beta mRNA in 7 of 16 samples. Specificity of hybridization was demonstrated by near complete blockade of TCR alpha hybridization with unlabeled TCR alpha, but not with unlabeled TCR beta probe. Furthermore, in Northern blot analysis a truncated 1,4 kb message for TCR alpha was readily detectable. No significant cell surface staining with the anti-TCR alpha/beta monoclonal antibody WT31 was observed. A contribution of T cells within the leukemic sample could be excluded since only samples with leukemic cell counts of greater than 50,000 cells/mm3 and only samples with 5% or less CD2+ T lymphocytes were studied. Our data show that a large proportion of B-CLL samples may express a truncated version of the TCR alpha message, indicating that this gene can be activated in leukemic B cells frozen at a late stage of differentiation.
Leukemia 1989 Jul
PMID:T cell receptor alpha expression in B-type chronic lymphocytic leukemia. 252 11

TCR gamma delta expressing T cell clones are able to exhibit in vitro strong cytolytic activity against cultured tumor cell lines as the myeloid K562 or the Burkitt's lymphoma Daudi cell line. We investigate the possibility of developing TCR gamma delta bearing T cell lines from peripheral blood of 2 leukemic patients in complete remission in order to study their ability to kill autologous leukemic cells. T lymphocyte clones are obtained by limiting dilution of lymphocytes from the blood of patients with an acute lymphoblastic leukemia (ALL). The T cell clones are first selected for their CD8- CD4-phenotype and then for their ability to react with the monoclonal antibody anti-CD3 without presenting reactivity with a monoclonal antibody directed against the TCR alpha beta. Further biochemical studies have indicated that the CD3 associated structure expressed on the cell membrane of these T cell clones is a gamma delta heterodimer. Functional analysis have indicated that these cloned cells are able to kill in a classical cell mediated lysis assay the autologous leukemic cells only when also LAK activity is observed. Thanks to this clonal expansion 10(10) cells/week indefinitely only 1 sample of peripheral blood will be necessary. Would these results be found with other leukemic patients, we propose to use this procedure for a possible application of killer cells for maintenance therapy of leukemia.
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PMID:Human CD3 gamma delta + activated lymphocytes exhibit killer activity in vitro against autologous leukemic cells. 252 19

Regulatory effects on myelopoiesis and myelogenous leukaemia cell proliferation mediated by a human T cell clone (TCC) carrying a gamma/delta receptor have been studied. MHC-unrestricted cytotoxicity could be induced in this clone by culture with IL-2 but not IL-4. Increasing concentrations of IL-2 resulted in increased lysis of natural killer (NK)-susceptible target cells but lysis of NK-resistant targets could not be induced. Moreover, cytotoxicity on fresh chronic myeloid leukaemia cells was not measurable even after culture with 1000 U/ml IL-2. However, NK-resistant targets could be lysed when anti-receptor antibodies (OKT3 or TCR-delta 1) were added to the assay. Clone 290-2 cells secreted lymphokines potentially inhibitory for myelopoiesis (TNF-alpha, IFN-gamma), and their supernatants could inhibit optimally stimulated granulocyte/macrophage colony formation by normal bone marrow. Moreover, 290-2 cells prevented the consistently observed IL-3-stimulated enhancement of proliferation of CML cells, although even IL-3-pretreated leukaemic cells were still resistant to lysis by this clone. Thus, cells of this type, even when not directly cytolytic, could have a role in the regulation of myeloid cell growth.
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PMID:Regulation of normal myelopoiesis and chronic myelogenous leukaemia cell proliferation through a non-cytotoxic mechanism by a gamma/delta T cell clone. 253 Jan 64

In order to study the relationship between assembly, surface expression, and signal transduction of the alpha/beta T-cell antigen receptor-CD3 complex (TCR.CD3), a series of T-cell mutants with a partial block in assembly of the complex was generated. By chemical mutagenesis, we produced somatic cell variants of the human T-leukemia cell line, HPB-ALL, which expressed low amounts of TCR.CD3 complexes on their surface. RNA and protein analyses demonstrated that most variants synthesized normal amounts of the individual members of the complex, i.e. TCR-alpha, TCR-beta, CD3-gamma, -delta, -epsilon, and -zeta. In these variants, less than 10% of the TCR.CD3 complexes inside the cell contained the CD3-zeta 2 homodimer due to an intrinsic deficiency in the formation of the TCR-alpha/beta heterodimer. The low level of assembly of CD3-zeta 2 into the TCR.CD3 complex and an additional decrease in the rate of export of the TCR.CD3 complex from the endoplasmic reticulum explained the low level of expression of alpha/beta receptors on the surface of these mutants. Only cells with the complete set of subunits of the TCR.CD3 complex on their surface were capable of transducing CD3-mediated signals. The results presented in this paper indicate that TCR-alpha/beta heterodimer formation is an obligatory requirement for assemblage of CD3-zeta 2 into a functionally competent TCR.CD3 complex.
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PMID:T-cell antigen receptor (TCR)-alpha/beta heterodimer formation is a prerequisite for association of CD3-zeta 2 into functionally competent TCR.CD3 complexes. 253 Nov 45

Because clonal rearrangements of the beta-T cell receptor (beta-TCR) gene occur in some patients with B cell chronic lymphocytic leukemia, we studied the arrangement of this gene in fourteen patients with multiple myeloma, a malignancy of the most terminally differentiated B cells. The gene was in germline configuration in peripheral blood lymphocytes (PBLs) and bone marrow samples of thirteen patients. By contrast, it was clonally rearranged in the marrow but not in the PBLs of one patient with stage IIA IgA-lambda myeloma. This patient's bone marrow consisted of 95% morphologically identifiable plasma cells which were CALLA-, OKT10+ (93%), and PCA-1+ (78%). Only 5% of marrow cells were small lymphocytes which contained T cell markers (CD3+ or CD2+). To eliminate the possibility that the small percentage of contaminating T cells contained the gene rearrangement, they were depleted by avidin-biotin immunoadsorption using the Leu4 determinant. Positively selected marrow T cells did not contain beta-TCR gene rearrangements. By contrast, the T cell depleted marrow contained the rearranged gene. This is the first demonstration that rearranged beta-TCR genes can occur in multiple myeloma.
Leukemia 1989 Feb
PMID:Clonal rearrangement of the beta-T cell receptor gene in multiple myeloma. 253 28

We have examined the effects of cyclosporine A (CsA) on a number of CTL effector functions. CsA partially inhibited the CTL-mediated lysis of Ag-bearing target cells. Both target cell- and anti-TCR mAb-induced granule exocytosis were markedly inhibited by CsA. In addition, marked inhibition of PMA and calcium ionophore (A23187) induced granule exocytosis was produced by CsA suggesting that the inhibitory effects of CsA on granule exocytosis involve biochemical events after protein kinase C activation and increases in intracellular free Ca2+. CsA had no inhibitory effects on TCR-mediated phosphatidylinositol metabolism. The inhibitory effects of CsA were not mediated by the cAMP-dependent protein kinase inhibitory pathway and no effect of CsA on the Ca2+-induced binding of calmodulin to calmodulin-binding proteins could be demonstrated. CsA was also a potent inhibitor of IgE receptor-mediated exocytosis in rat basophil leukemia cells. CsA had no effect on receptor-mediated phosphatidylinositol hydrolysis; 400 ng/ml CsA resulted in a 90% inhibition of serotonin release but had no effect on phosphatidylinositol hydrolysis. These results indicate that CsA may inhibit some common event in Ca2+-dependent secretory cells. Taken together, these results suggest that CsA does not inhibit signal transduction but rather interferes with the biochemical events in the later stages of Ca2+-dependent reactions that follow the binding of calmodulin to cytoskeletal or cytoplasmic calmodulin binding proteins.
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PMID:Biochemical characterization of the inhibitory effect of CsA on cytolytic T lymphocyte effector functions. 254 Dec 1

Using chromosome walking techniques, overlapping lambda and cosmid clones from the T cell receptor alpha (TCR alpha) region have been isolated; these span the entire J alpha region and parts of the TCR delta gene. Molecular analysis of the acute childhood leukemia cells (T-ALL) 8511 revealed a rearrangement on one chromosome 14 in J alpha 58 kb 5' of C alpha; this does not result in production of alpha message. The translocation was identified 90 kb 5' of C alpha at the previously identified J delta 2 element. A probe derived from the 5' region of the translocation breakpoint hybridized to DNA from a mouse-human cell hybrid containing chromosome 11 as the only human chromosome. This probe was used to isolate cosmid clones from chromosome 11. Several rare cutting restriction enzyme sites were found in close vicinity to the translocation breakpoint, and a long-range map spanning 1000 kb of chromosome region 11p13 was established. Analysis of the DNA from 15 cases of sporadic and familial Wilms' tumor did not reveal any changes, indicating that the translocation breakpoint does not reside in this gene.
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PMID:Molecular cloning of the translocation breakpoint in T-ALL 11;14 (p13;q11): genomic map of TCR alpha and delta region on chromosome 14q11 and long-range map of region 11p13. 254 21

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