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)

In the therapy studies ALL-BFM 83 and 86, immunophenotyping of ALL by monoclonal antibodies was performed in a total of 1162 protocol patients (ALL-BFM 83 n = 578; ALL-BFM 86 n = 584). Both studies yielded similar results with respect to the incidence of immunological subtypes: CD10-negative pre-pre-B ALL (ALL-BFM 83: 3.6%; ALL-BFM 86: 5.3%), common ALL (80.1%; 77.9%), B-ALL (1.9%; 2.8%), pre-T/T-ALL (13.9%; 13.5%). Leukemic cells of 3 patients in the ALL-BFM 83 study lacked lymphoid and myeloid antigens (acute unclassifiable leukemia, 0.5%), and 3 patients in the ALL-BFM 86 study exhibited different blast populations with expression of either myeloid or lymphoid features (acute mixed-lineage leukemia, 0.5%). Coexpression of myeloid antigens (CD13 and/or CD33 and/or CDw65) on lymphoblasts (My-positive ALL) was identified in 35 of the 570 (6.1%) protocol patients prospectively analyzed in the ALL-BFM 86 study. The following associations were observed between the immunological subtype and the clinical risk factors: median age (years)-pre-pre-B 3.0, common 4.3, B- 7.9, pre-T/T-ALL 8.5 (pre-pre-B, common vs. pre-T/T-ALL p = 0.05); median leukocyte counts (x 10(9)/l)-pre-pre-B 80, common 9.1, B- 12.3, pre-T/T-ALL 68.1 (common, B- vs. pre-pre-B, pre-T/T-ALL p less than 0.05). The prognostic relevance of the immunophenotype was evaluated on the basis of the therapeutic results obtained in the ALL-BFM 83 study. A significant difference in the remission rate was only recognizable between patients with common ALL (99.1%) and those with pre-T/T-ALL (93.7%, p less than 0.001). After a median follow-up of 54 months, the probability of event-free survival is 71% for pre-pre-B ALL, 67% for common ALL, 56% for pre-T/T-ALL and 27% for B-ALL (common vs. B-, pre-T/T-ALL p less than 0.001), the prognosis in patients with pre-pre-B and common ALL being markedly influenced by the initial leukocyte counts and the age.
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PMID:[Incidence, clinical markers and prognostic significance of immunologic subtypes of acute lymphoblastic leukemia (ALL) in children: experiences of the ALL-BFM 83 and 86 studies]. 220 38

A standard Philadelphia translocation, t(9;22) (q34;q11), was found in lymph node cells from a patient with non-leukemic non-Hodgkin lymphoma at the time of diagnosis. The rearrangement of the breakpoint cluster region (bcr) was not detected with a bcr-3' probe. The neoplastic clone was of monoclonal B-cell character with E-, CD5-, CD10-, CD13-, CD19+, CD20+, CD21+, CD25-, HLA DR+, and positive surface Ig(kappa). The patient showed no evidence of chronic myelogenous leukemia.
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PMID:Ph chromosome in a patient with non-leukemic non-Hodgkin B-cell lymphoma. 222 Jul 68

The low frequency of plasma cells and the lack of specific cell surface markers has been a major obstacle for a detailed characterization of plasma cells in normal human bone marrow. Multiparameter flow cytometry enabled the identification of plasma cells in normal bone marrow aspirates. The plasma cells were located in a unique position in the correlation of forward light scattering, orthogonal light scattering, and immunofluorescent-labeled CD38. The identity of the sorted cell populations was confirmed by microscopic examination of Wright's stained slides and slides stained for cytoplasmic immunoglobulin using polyclonal antibodies reactive with light chains; ie, anti-kappa fluorescein isothiocyanate and anti lambda phycoerythrin (PE). The purity of the sorted plasma cells was greater than 97% (n = 4). The average frequency of plasma cells in normal bone marrow aspirates was low--0.25% of the nucleated cells (n = 7)--but surprisingly consistent between individuals (SD = .05; range 0.14% to 0.30%). A detailed analysis showed two distinct populations of plasma cells: (1) A population relatively smaller by forward light scattering expressed CD22, CD35, and sigE and was identified as early plasma cells (ie, lymphoplasmacytoid), and (2) a population larger by forward light scattering lacked these markers and was identified as mature plasma cells. The antigenic profile of the normal plasma cells was determined in two-color immunofluorescence studies. The expression of cell surface immunoglobulin G (IgG), IgA, IgE, IgD, IgM, and the cell surface antigens CD10, CD11b, CD13, CD11c, CD14, CD15, CD16, CD19, CD22, CD20, CD33, CD35, CD45, and HLA-DR was determined on the plasma cells. A significant heterogeneity in cell surface antigen expression was observed within the plasma cell population. Unexpectedly, myeloid-specific cell surface antigens such as CD33 and CD13 and the early B-cell antigen identified by CD10 were expressed on a proportion of plasma cells. These observations imply that the association of myeloid and early B-cell markers described in multiple myeloma may not be associated with the neoplasia but is a normal phenomenon.
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PMID:Identification and characterization of plasma cells in normal human bone marrow by high-resolution flow cytometry. 222 23

The immunophenotype of peripheral blood blast cells from six patients with acute myelofibrosis was studied using a panel of monoclonal antibodies directed against granulocytic, erythroid, megakaryocytic and lymphoid antigenic determinants. In all patients most of the blast cells were labeled with anti-HLA-DR and with the early myelomonocytic antibodies My7 (CD13), My9 (CD33) and B1-3C5 (CD34) (3/3). In three cases, platelet antibodies Edu3 (CD41) and GPIIIa (CD61) reacted with about 30% of blast cells. TdT was positive in two out of six samples studied. Lymphoid markers T3 (CD3), Leu9 (CD7), J5 (CD10), B4 (CD19) and B1 (CD20) were negative in all cases. These results suggest that blast cells are mainly of immature myelocytic origin. However, the coexistence of megakaryoblasts cannot be ruled out in the cases with a proportion of cells that are positive with Edu3 and GPIIIa antibodies.
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PMID:Immunophenotype of blast cells in acute myelofibrosis. 225 22

A series of 60 acute nonlymphocytic leukemias (ANLL) was analyzed for the expression of terminal deoxynucleotidyl transferase (TdT). The detected TdT+ cells were studied in detail by use of double marker analyses for TdT and differentiation markers, such as myeloid markers (CD13 and CD33), B cell markers, T cell markers, and the precursor antigen CD34. In 15 (25%) of these leukemic cell samples, we found no TdT+ cells or low percentages of CD10+TdT+ cells; the latter probably represent precursor B cells. In the other 45 (75%) ANLL myeloid marker+TdT+ CD10- cells were detected, ranging from 0.1-10% (n = 24) or over 10% (n = 21) of mononuclear cells. Interestingly, a higher frequency of CD34 positivity was found on the TdT+ cells as compared to the TdT- cells, suggesting that the TdT+ cells represent an immature leukemic subpopulation. Therefore, it may be speculated that the TdT+ subpopulation contains the clonogenic ANLL cells. In two patients, in whom immunologic marker analysis was performed at initial diagnosis as well as at relapse, an expansion of the TdT+ subpopulation was documented at relapse, which may reflect a reduced differentiation capacity of the leukemic cells. Previous studies on a series of nonleukemic bone marrow and blood samples revealed that normal counterparts of myeloid marker+TdT+ cells are rare in bone marrow (less than 0.03%, if they occur at all) and that such cells are not detectable in blood. Therefore myeloid marker TdT double stainings may be useful to monitor the TdT+ leukemic subpopulation in patients with a TdT+ ANLL during and after chemotherapy. Our preliminary results on the follow-up of two such patients support this hypothesis.
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PMID:Terminal deoxynucleotidyl transferase positive subpopulations occur in the majority of ANLL: implications for the detection of minimal disease. 235 40

Neuroblastoma (NB) is a solid tumor of childhood with a relatively bad prognosis, with the exception of young infants (less than 1 year), in whom spontaneous regression of tumor burden occurs. The reasons for this are still unknown but immune mechanisms may be involved. In this study, we have examined the ability of several monoclonal antibodies (MoAbs), which recognize markers predominantly expressed on human haematopoietic cells, to react with four human neuroblastoma cell lines (UKF-NB 1-4) and SK-N-SH as control cell line. In order to define the phenotype of NB cells, we used a large panel of MoAbs consisting of 2 major groups: a) well characterized MoAbs raised against antigens of neuroectodermal origin from the Kemshead-serie (e.g. UJ 13A, UJ 127.II, UJ 167.11, UJ 181.4, UJ 223.8, A2B5), b) monoclonal antibodies which have been considered to react with haematopoietic cells (HLA-DR and anti-CD-molecules CD1, CD7, CD9, CD10, CD13, CD16, CD19, CD20, CD24, CD57). The phenotypic analyses were performed at various times of culture by an immunoenzymatic procedure (APAAP-technique). Most of the MoAbs used against neuroblastoma cells showed a strong reactivity pattern with the NB cell lines. None of the antibodies against T-lymphocytes bound to any of the NB cells assayed in our study, with the exception of anti-CD 1. On the contrary, B-cell markers BA-2 (CD9) and BA-1 (CD24) cross-reacted with the NB cells just as well as the marker for NK-cells (CD57), but they did not express reactivity with Leu-11b (CD16), anti-CALLA (CD10) and anti-HLA-DR.
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PMID:Expression of markers shared between human haematopoietic cells and neuroblastoma cells. 238 85

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

Immunophenotypic analyses of immature stage (day 19-23), intermediate stage (day 28-32), mature stage (day 34-37), and older stage (day 42-44) human hemopoietic mast cells from colonies grown in semi-solid agar cultures were performed to study the ontogeny and identity of this cell type and its relationship to other leukocytes. Intermediate to mature stage mast cells were positive with the YB5.B8 mouse monoclonal antibody, (McAb) specific for human mast cells, whereas the reactivity of immature mast cells with this McAb was inconsistent and older cells were generally negative. Mast cells at all stages of maturation were strongly positive for IgE receptor sites and negative with the Bsp-1 McAb, specific for human basophils. Mast cells at all stages of maturation were also strongly positive with the monocyte McAbs RPA-M1 (CD11), positive with the monocyte McAb OKM5 and the monocyte/granulocyte McAbs BMA-210 and MY7 (CD13), strongly positive with the B-cell markers J5 (CD10) and anti-IgM, and positive with the plasma cell marker PCA-1 and to a lesser extent with the activated B-cell marker CD23. The mast cells were also strongly positive with anti-CD45 to the common leukocyte antigen and positive with an antibody to HLA-DR and an antibody to FVIIIC. They were negative for specific T-cell markers. The diversity of this phenotype supports the current concept that mast cells originate from the pluripotential progenitor cells in the bone marrow.
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PMID:Immunophenotypic analyses of cultured hemopoietic mast cells. 239 49

Aminopeptidase M (EC 3.4.11.2), an enzyme present on the cell surface of vascular endothelium and/or smooth muscle, rapidly hydrolyzes leucyl- and arginyl-2-naphthylamides and a number of vasoactive peptides at physiologic pH. Utilizing both thin-layer chromatography and high pressure liquid chromatography, it was found that vascular aminopeptidase M converted kallidin to bradykinin and inactivated des(Asp1)angiotensin I, angiotensin III, hepta(5-11)substance P and hexa(6-11)substance P. Aminopeptidase M did not, however, hydrolyze bradykinin, angiotensin I, angiotensin II, saralasin, vasopressin, oxytocin or any form of substance P containing a component of the Arg-Pro-Lys-Pro sequence. Both the naphthylamidase and peptidase activities were inhibited similarly by known amino-peptidase M inhibitors including o-phenanthroline, amastatin, bestatin and puromycin. However, inhibitors of angiotensin I converting enzyme (captopril), carboxypeptidase N (MERGETPA), neutral endopeptidase (phosphoramidon), post proline cleaving enzyme and dipeptidyl(amino)peptidase IV (diisopropylphosphofluoridate, DFP) were without effect. These results demonstrate that vascular, cell surface aminopeptidase M can selectively metabolize vasoactive peptides and may play a role in modulating their levels in the circulation and/or within the vessel wall.
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PMID:Vascular, plasma membrane aminopeptidase M. Metabolism of vasoactive peptides. 240 81

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