EC:3.4.24.11 - FACTA Search

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Query: EC:3.4.24.11 (CD10)
9,792 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A case of acute lymphoblastic leukemia (ALL) was encountered in which the two clonal gamma T-cell receptor gene (TCR gamma) rearrangements found in bone marrow (BM) samples at relapse both differed from the single clonal TCR gamma rearrangement present in BM obtained at diagnosis 5 years previously. In contrast, two clonal Ig heavy chain gene (IgH) rearrangements present at relapse were identical to those present at diagnosis. Comparison of the DNA sequences of the relapse TCR gamma rearrangements with that of the diagnostic TCR gamma rearrangement indicated that they must have been generated de novo from TCR gamma loci in germline configuration. By polymerase chain reaction using clonotypic N-region oligonucleotide primers (N-PCR), cells bearing the diagnosis or relapse TCR gamma rearrangements were undetectable in the sample from the opposite time point. Two BM samples obtained at different times in clinical remission were both devoid of detectable residual tumor when analyzed by N-PCR, indicating a depth of remission of less than 1 tumor cell per 4 x 10(5) BM mononuclear cells. The tumor cells showed a primitive phenotype: T-cell antigen-negative, CALLA/CD10-negative, CD20-negative, CD19-positive, and positive for the myeloid marker My9. This case, which appears to represent a tumor arising from a progenitor cell with both early B-lineage and certain stem cell features, has implications for monitoring residual ALL and possibly also for treatment of the disease.
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PMID:Changing antigen receptor gene rearrangements in a case of early pre-B cell leukemia: evidence for a tumor progenitor cell with stem cell features and implications for monitoring residual disease. 130 70

In a longitudinal study of a 32-year-old male with Ph1+ hybrid leukemia we have followed the immunophenotype and configuration of Ig- and TCR genes during the course of different chemotherapy regimens directed first against the myeloid and later against the lymphoid components of the disease. We identified changes in all parameters, interpretable as an evolution of the malignant clone resulting in a leukemic switch towards a more lymphoid character. Thus, while the expression of the myeloid antigens CD13 and CD33 decreased, that of CD10 (CALLA) and CD20 (B1) increased. Moreover, while the configuration of the Ig heavy and light chain lambda genes remained constant during the whole period of treatment, that of the Ig light chain kappa gene and TCR beta gene displayed extensive rearrangements after initiation of ALL therapy. Since this patient represents a de novo acute leukemia as evaluated by location of the translocation-breakpoint on chromosome 22, our data clearly indicate that Ig- and TCR gene rearrangements might prove a valuable addition in monitoring Ph1+ hybrid leukemias, providing guidelines for optimizing chemotherapy.
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PMID:Evolution of Ig- and T-cell receptor gene configuration in a Ph1+ hybrid leukemia patient. 131 81

This study is intended to establish biological correlation between the expression of lymphoid associated features in acute myeloid leukaemia (AML). In 62 AML patients, predominantly enrolled on Eastern Cooperative Oncology Group (ECOG) treatment protocols, in whom immunoglobulin (Ig) as well as T-cell receptor beta chain (TCR-beta) gene rearrangement analyses had been performed, morphology, cytochemistry, antigen profile and karyotype were reviewed retrospectively. Nuclear reactivity with anti-TdT antibody was demonstrated in 34 patients (55%) and confirmed by ribonuclease protection assay in all patients tested. Five TdT-protein negative patients were TdT-transcript positive. Lymphoid antigens (lyA) were detected in 24 of 51 cases tested (47%) with B-cell antigens (CD19, CD10) being restricted to TdT+ AML (P = 0.03). Only two patients had Ig heavy, none had Ig light chain or TCR-beta gene rearrangements. Although both patients with rearranged Ig loci were TdT+, either by protein or RNA analysis, the low incidence of such rearrangement within the TdT+ AML group (6%) argues against a significant association between the presence of TdT and crosslineage Ig gene rearrangements in AML. While FAB-diagnoses did not differ between TdT+ and TdT- or lyA+ and lyA- AML, particular immunophenotypic features correlated with TdT positively, e.g. the presence of early antigens, CD34 and HLA-DR, and the absence of the more mature myelo-monocytic antigens, CDw65 and CD14. Certain cytogenetic abnormalities were associated with TdT+ AML such as inv(16) (p13q22) or t(16;16) (p12;q22) (five patients; P = 0.03) and t(8;21) (q22;q22) (three patients). A greater number of TdT- than TdT+ AML patients had only normal karyotypes (P = 0.06). Neither immunophenotypic nor karyotypic correlations could be established for lyA+ AML.
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PMID:Lymphoid lineage-associated features in acute myeloid leukaemia: phenotypic and genotypic correlations. 141 14

We examined the configuration of the immunoglobulin genes in the leukemic blast cell DNA of 20 adults with precursor B-cell acute lymphoblastic leukemia (ALL), treated according to the BMFT protocol. Sixteen of 20 (80%) patients expressed HLA-DR antigens and lacked detectable T-cell antigens. Eleven of the 20 patients (55%) were positive for the CD10 antigen and therefore classified as common ALL. Six patients were classified by immunological phenotyping as null-ALL (30%). Three patients (15%) expressed both immature B-cell markers CD19, CD22, or CD24 and myelomonocytic markers CDw65 or CD15, suggesting precursor B-ALL with cross-lineage expression of myeloid markers. In 18 of the 20 patients (90%), rearrangements and/or deletions of the immunoglobulin heavy-chain (IgH) gene locus were found. In none of the patients was a light-chain gene rearrangement observed. Two patients (10%) had a rearrangement of one allele for the J beta 1 gene region of the TCR-beta gene. In four patients (20%) more than two hybridizing bands for the IgH genes were detected. Two of these four patients with multiple hybridizing bands for the IgH genes had a t (4;11) translocation. Two of five patients with the t (4;11) translocation co-expressed both B-cell antigens and the myeloid antigens CD15 or CDw65. No correlation was found between the immunophenotype of the ALL and the arrangement pattern of their IgH genes. Kaplan-Meier plot analysis revealed no significant difference between adult precursor B-ALL patients with monoclonal or oligoclonal IgH gene rearrangements and their disease-free survival rates.
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PMID:Presence of more than two rearranged immunoglobulin heavy-chain genes in adult precursor B-cell acute lymphoblastic leukemia. 155 98

A 58-year old man was admitted because of general malaise in April 1987. Physical examination revealed systemic lymphadenopathy and hepatosplenomegaly. The white blood cell count was 252, 900/microliters with 82% of blasts. Bone marrow aspiration contained 93.8% lymphoblasts, which were positive for TdT and negative for peroxidase reaction. Immunologic marker studies showed OKT 11 positive and CALLA negative. Cytogenetic analysis revealed a clone with 46, XY, t (9; 22) (q34; q11), del(5) (q15) in 12 of the 13 metaphases. Ph1 positive T-acute lymphoblastic leukemia was considered. After AdVP and following AdVEMP (induction) chemotherapy, complete remission was obtained in August 1987. Cytogenetic study at the remission stage showed complete disappearance of Ph1 positive clone. Treatment with BH-AC DMP protocol at the time of recurrence in November 1987, brought no improvement and he died of respiratory failure. Chromosome study at recurrence showed an additional complex abnormal karyotype (double Ph1, +2, 5q-, -10, -13, -17). DNA analysis revealed rearrangements of bcr gene with deletion of 5' side and of TCR delta gene, without any rearrangements in other immunoglobulin genes. From cytogenetic, immunophenotypic and genetic analysis the patient was diagnosed as having acute lymphocytic leukemia (FAB L1) with Philadelphia chromosome and rearrangements of bcr gene with deletion of 5' side and of TCR delta gene.
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PMID:[Acute lymphocytic leukemia with Philadelphia chromosome and rearrangements of bcr gene and deletion of 5' side and of TCR-delta gene]. 214 50

In this study, we applied mAb and heterologous antisera in double marker combinations to investigate the phenotype and the proliferative activity of immature B lineage cells in XLA. Bone marrow (BM) samples from eight male adult patients with no circulating B lymphocytes were studied. The proportions and the phenotype of the earliest identifiable B cell progenitors, expressing nuclear terminal deoxynucleotidyl transferase (TdT), cytoplasmic CD22, and membrane CD19 and CD10 were identical to those observed in normal BM. In XLA these cells represented 1.2% to 22% of BM mononuclear cells; 5% to 42% and 1% to 45% of such cells weakly expressed CD20 and CD37, respectively, and invariably lacked CD13 and CD33. Cytoplasmic mu+ sIg- pre-B cells were seen in low numbers (0.1% to 0.3%) in four samples and were undetectable in the remaining four. Consequently, the ratio TdT+/c mu+ was greater than 100 in five out of eight samples studied in contrast to the less than 10 values seen in normal individuals. The proliferative activity of B lineage progenitor cells was studied by using Ki67 and anti-bromodeoxyuridine mAb. Although the proliferation of TdT+ cells in XLA was comparable with that seen in normal BM samples (24% to 59% of TdT+ were Ki67+ and 11% to 27% incorporated bromodeoxyuridine), this was dramatically reduced in the c mu+ cells (no c mu+, Ki67+ seen in three samples where pre-B cells were observed). Thus, the abnormalities of B cell differentiation in XLA are first seen at the c mu+ pre-B stage and suggest a maturation block in the transition between TdT+, c mu- pre-pre-B cells and c mu+ pre-B cells. The severity of this block may be variable, allowing the generation of a near normal number of pre-B cells in some patients, which nevertheless have a defective proliferative activity. Finally, our study further supports the concept that the effects of the "XLA gene" are confined within the B lineage by demonstrating that the proportions of T cells bearing TCR-alpha beta and TCR-gamma delta in XLA are similar to those seen in normal individuals.
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PMID:Phenotypic features and proliferative activity of B cell progenitors in X-linked agammaglobulinemia. 239 16

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.
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PMID:Phenotypic, genotypic, cytochemical, and ultrastructural characterization of acute undifferentiated leukemia. 239 82

Three cases of T-lymphoblastic lymphomas (T-LL) expressing the T cell antigen receptor gamma delta (TCR gamma delta) are reported. All of them were CD3+/beta F1-/TCR delta 1+. Moreover, neoplastic cells reacted with the delta TCS1 monoclonal antibody (MoAb) which binds to the non-disulfide-linked form of the TCR gamma delta, but not with the BB3 MoAb which recognizes the disulfide-linked form of the TCR gamma delta. All cases showed a stage II cortical phenotype, eg, TdT+/CD1+/CD3+/CD5+/CD7+; two of them coexpressed CD4/CD8, while the other was CD4+/CD8-. Two cases were positive for CALLA and CD25. Immunogenotypic analysis showed evidence of T beta and C gamma 2 gene rearrangements in all three cases and immunoglobulin (Ig) gene rearrangements in two cases. Two patients presented with an anterior mediastinal mass and the third with a solitary inguinal lymphadenopathy. We suggest that these cases of TCR gamma delta+ T-LL may be derived from the small population (approximately 0.5%) of CD3+ cortical thymocytes which, in the normal human thymus, express the delta TCS1-reactive, non-disulfide-linked form of the TCR gamma delta.
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PMID:T-lymphoblastic lymphomas expressing the non-disulfide-linked form of the T-cell receptor gamma/delta: characterization with monoclonal antibodies and genotypic analysis. 252 30

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.
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PMID:Clonal rearrangement of the beta-T cell receptor gene in multiple myeloma. 253 28

Three patients with T-cell lymphoma were studied with a combined cytogenetic-immunological analysis (MAC) as well as by Southern blotting analysis. The MAC method, which allows simultaneous study of both chromosomes and immunophenotype of a mitotic cell, revealed that in each case the karyotypically abnormal and, therefore, neoplastic cells originated from different stages of T-cell maturation. In one case the abnormality was seen in cells expressing CD3 and CD10, in the second in cells expressing CD3 and CD8, and in the third case in cells expressing CD4 but not CD3. Mitoses were frequent also in non-neoplastic cells, but these mitoses were normal. Southern blotting analysis revealed TCR beta rearrangements in all patients. In addition, one patient displayed TCR gamma rearrangement, and one patient a rearrangement in the IgH joining region.
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PMID:Characterization of neoplastic and reactive cells in T-cell lymphomas with cytogenetic, surface marker, and DNA methods. 267 63

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