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)

The specificity and the clinical usefulness of the hybridoma derived monoclonal antibodies raised against the differentiation antigens of granulocytes (VIM-D5, VIM-C6), monocytes (VIM-D2), B lymphocytes (VIB-C5, VIC-Y1), erythrocytes (VIE-G4) and CALLA (VIL-A1) was studied in leukemic cells isolated from peripheral blood and bone marrow of 41 adults with acute leukemia by using indirect fluorescence method. The VIL-A1 positivity was observed in 4/9 of ALL and in none of myeloid leukemia. It was accompanied in 3/4 of cases by VIB-C5 positivity and in one case by VIE-G4 positivity. It is important that 2 out 3 unclassifiable cases (PAS-) could be diagnosed as common ALL due to their VIL-A1 positivity. VIM-D5 like VIM-C6 reacted specifially with granulocytic cells only and gave positive results in 20/30 of acute myeloid leukemias. When classified according to the FAB scheme, the proportion of VIM-D5 + patients rose from M1 toward more mature subtypes, including M4/5. It allowed to identify as AML 2/6 of unclassifiable-Mo leukemias, VIC-Y1 appeared to be helpful in characterization of B cell malignancies and of myelomonocytic leukemias. It is concluded that the monoclonal antibodies of VI series are specific and allow a more precise definition of leukemia, thus helping in optimalization of treatment.
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PMID:Application of series of monoclonal antibodies against human white cell differentiation antigens and the common ALL antigen in the characterization of leukemia cells. 643 53

Four distinct rat monoclonal antibodies against the common ALL antigen (CALLA, gp 100) were obtained in a single fusion. Rat AL2, AL3, AL4, AL5 and the previously reported mouse J5 monoclonal antibodies identified the same subsets of leukaemic cells. AL2 and AL3 reacted weakly with terminal transferase-positive cells in normal bone marrow and foetal liver, as well as with a minority of mature granulocytes in blood. Immunoprecipitation experiments and competitive binding assays demonstrated that the four rat antibodies and J5 bound to the same glycoprotein of approximately 100,000 mol. wt. This set of rat monoclonal antibodies directed against CALLA has not only a diagnostic usefulness but may also be of therapeutic value.
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PMID:Rat AL2, AL3, AL4 and AL5 monoclonal antibodies bind to the common acute lymphoblastic leukaemia antigen (CALLA gp 100). 657 89

Monoclonal antibodies generated against normal and leukemic human leukocytes were tested for their differential reactivity with leukemia and lymphoma cell lines as well as with circulating lymphoid and myeloid leukemic cells by means of immuno-scanning electron microscopy (immuno-SEM). Anti-T (OKT3), anti-mu-chain, anti-CALLA (J5), anti-BA-1, anti-BA-2, and anti-nonlymphoid (Mol) monoclonal antibodies were covalently conjugated to polystyrene latex microspheres (immunolatex), using a two-step glutaraldehyde reaction, and subsequently incubated with the various cell types. Cultured B-type Burkitt lymphoma cells (Daudi) and chronic lymphocytic leukemia (CLL) cells displayed extensive labeling with monoclonal anti-mu, anti-B1, and anti-BA-1 immunolatex conjugates, while cultured malignant T cells (HD-Mar) showed positive labeling with OKT3 immunolatex alone. Cultured myelomonocytic cells (GDM-1) and cells obtained from patients with acute myeloblastic (AML) and monoblastic leukemia (AMoL) labeled only with anti-Mol immunolatex, while cultured promyelocytic cells (HL-60) displayed far less labeling with this conjugate. Common-type acute lymphoblastic leukemia (C/ALL) cells were labeled predominantly with the J5 (anti-CALLA) and anti-BA-2 immunolatex conjugates. Evidence is presented indicating that immuno-SEM employing monoclonal antibodies is a reproducible technique which may be used in the study of leukocyte maturation and may provide additional information in the classification of poorly differentiated leukemias.
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PMID:Utilization of monoclonal antibodies and immuno-scanning electron microscopy for the positive identification of human leukemic cells. 658 Nov 72

Surface antigens of lymphoblasts from 56 pediatric ALL patients were studied with a set of complement fixing monoclonal antibodies. This group of lymphoblasts was comprised of 22 T-cell ALL, 22 CALLA+ Ia+ ALL and 12 non-T-non-B, CALLA- Ia+ ALL. For comparison, two adult T-cell CLL and six B-cell CLL were also studied. It was found that by using the microlymphocytotoxicity technique, the lymphoblasts can be assigned their immunophenotype and thus be classified into their respective lineage and stage of differentiation. In the samples tested, concordant reactivity was observed when FACS fluorescence profile was compared with that of microlymphocytotoxicity suggesting that the latter can be used especially when qualitative estimates are required.
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PMID:Phenotypic characterization of acute leukemia with monoclonal antibodies using the microlymphocytotoxicity assay. 665 15

Previous studies have demonstrated that the common acute lymphoblastic leukemia antigen (CALLA) is expressed by leukemic cells from approximately 80% of patients with non-T-cell ALL and 30%-50% of patients with chronic myelocytic leukemia in blast crisis. A small number of normal bone marrow and fetal liver cells also express CALLA, but the functional role of this molecule is unknown. In the present study, we have used a monoclonal antibody (J5) specific for CALLA to study the expression of this antigen in non-Hodgkin's lymphomas. Within the B-cell lymphomas, it was found the CALLA was expressed by almost all Burkitt's and nodular poorly differentiated lymphocytic lymphomas. Within the T-cell lymphomas, CALLA was expressed in 40% of patients with lymphoblastic lymphoma. Three of 3 Burkitt's lymphoma cell lines and three of eight T-lymphoblast cell lines were also found to express CALLA. Normal spleen, lymph node, and thymus cells were not reactive with J5 antibody. These findings indicate that expression of CALLA is not limited to relatively undifferentiated leukemic lymphoblasts but also occurs in more differentiated lymphoid malignancies. However, normal differentiated lymphoid cells in lymph node, spleen, and thymus, which have a phenotype similar to that of lymphoma cells, do not appear to express CALLA.
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PMID:Expression of common acute lymphoblastic leukemia antigen (CALLA) by lymphomas of B-cell and T-cell lineage. 697 48

A method for automatic lineage assignment of acute leukemias was developed. Input are eight list mode data files acquired with a FACScan flow cytometer. For each cell, four parameters are measured: forward light scatter, orthogonal light scatter, fluorescein fluorescence, and phycoerythrin fluorescence. Eight data files are acquired in the following sequence: unstained, isotype controls, CD10/CD19, CD20/CD5, CD3/CD22, CD7/CD33, HLADR/CD13, and CD34/CD38. First, each of the data files 3 to 8 are clustered independently employing an algorithm based on nearest neighbors. Next, the clusters are associated across the data files to form cell populations, using the assumption of light scatter invariance across tubes for each population. The mean positions of each cell population are fed into a decision tree. The decision tree first identifies normal cell populations, i.e., monocytes, neutrophils, eosinophils, basophils, NK cells, T-lymphocytes, and B-lymphocytes. After elimination of the normal cell populations from the data space, the residual cell populations are classified as B-lineage ALL, T-lineage ALL, AML, AUL, B-CLL, or unknown. The effectiveness of this novel approach is shown with case studies of B-lymphoid, T-lymphoid, and Myeloid acute leukemias.
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PMID:Automatic lineage assignment of acute leukemias by flow cytometry. 750 22

The diagnosis of primitive hematologic malignancies in extramedullary sites (lymphoblastic lymphoma of T- or B-cell type and myeloid sarcoma) on paraffin-embedded tissue sections is difficult and often impossible because of the primitive morphology of the neoplastic cells. The authors studied 21 extramedullary tumors of lymphoid or myeloid blasts. They used a panel of 22 antibodies on frozen sections and 9 antibodies on paraffin sections to determine the spectrum of immunophenotypes and to develop a practical panel for diagnosis. All but two of the cases could be classified as lymphoid or myeloid using immunohistologic analysis. Thirteen cases were classified as lymphoblastic lymphoma/acute lymphoblastic leukemia (LBL/ALL); 10 were classified as precursor T (CD7+, CD3+/-, CD45+) and 3 as precursor B-cell (CD19+/-CD10+CD45-) type. Five cases were classified as myeloid sarcoma (CD13+ myeloperoxidase+, lysozyme+). Two LBL/ALL coexpressed either CD33 (1 case) or CD15 (1 case), and one myeloid sarcoma coexpressed TdT and CD7. One case appeared to be truly mixed lineage, coexpressing CD3 with myeloperoxidase and lysozyme, and two cases expressed no lineage-specific antigens. There were clinical differences between the three major tumor types, and within the category of T-precursor LBL/ALL, classification according to stage of thymocyte differentiation was associated with distinctive clinical features. In conclusion, the spectrum of immunophenotypes detected on frozen section was similar to that reported by flow cytometry on peripheral blood and bone marrow specimens. The most useful antigens on frozen sections were CD7 and CD3 (T cell), CD10 and CD19 (B cell), and CD13 (myeloid). TdT was coexpressed by one myeloid sarcoma and was undetectable in 40% of LBL/ALL. On paraffin sections, myeloperoxidase and lysozyme were reliable markers of myeloid lineage, but none of the markers used on paraffin sections distinguished between LBL/ALL of T- and B-precursor types. Both B-LBL/ALL and myeloid sarcomas were often CD45- on paraffin sections, which may be a obstacle in determining the diagnosis. These distinctions appear to have clinical relevance.
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PMID:Extramedullary tumors of lymphoid or myeloid blasts. The role of immunohistology in diagnosis and classification. 757 94

Important insights into leukocyte differentiation and the cellular origin of leukemias have been achieved by the use of monoclonal antibodies for the detection of cellular antigens with impact on the diagnosis and classification of hematological malignancies. A successful rapid immunoenzymatic technique using application of microwave irradiation (MIWI) on bone marrow cells of various children with ALL is described. The MIWI-stimulated immunotyping of acute leukemia cells with a panel of monoclonal antibodies against differentiation antigens (i.e. CD2, CD7, CD10, CD19, CD20, CD24, HLA-DR and TdT) has been compared with the conventional APAAP procedure developed by Mason et al 1983. The commercial microwave oven we used operates at 2.45 GHz. Fifteen sec irradiation at 350 W during all incubation steps produced excellent color reactions with Fast Red TR and Fast Blue BB similar to the conventional immunoenzymatic method. The results so far have demonstrated that the application of the MIWI-technique eliminates the need for long incubation periods without loss of sensitivity. With this technique an immunological diagnosis of childhood leukemia cells is possible using air dried smears in an microwave oven within 30 minutes.
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PMID:Rapid immunodiagnosis of childhood leukemia using microwave-stimulated APAAP-complex system. 765 5

The platelet-endothelial cell adhesion molecule-1 (PE-CAM-1), defined by the CD31 monoclonal antibody (MoAb), was initially described as a cell-cell adhesion molecule mediating both homotypic and heterotypic adhesion. In this report, we show that enriched CD34+ human hematopoietic progenitor cell populations, containing early myeloid, erythroid, and multipotential progenitor cells, are CD31+. Analyses of CD34+ cell lines representing early myeloid, multipotential, and pre-pre-B-lymphoid progenitors indicate that precursors of both myeloid and B-lymphoid cells express PECAM-1 at high levels. Three-color flow-cytometric analyses also show that normal human bone marrow CD31+ CD34+ subsets coexpress myeloid (CD33) or B-lymphoid (CD19, CD10) markers. Except for the monocytic cell line, U937, all CD34- cell lines tested, which represent more mature stages of the myeloid, erythroid, and lymphoid lineages, expressed substantially lower or negligible levels of PECAM-1. Western blotting studies indicated that the CD31 MoAb, JC/70A, detected molecules in the 120- to 140-kD molecular weight range on the monocytic CD34- CD33+ CD31+ cell line, U937; on the CD34+ CD31+ CD33+ CD19- multipotential/lymphomyeloid precursor cell lines, KG1 and KG1B; on the CD34+ CD31+ CD19+ CD10+ CD33- precursor pre-pre-B-cell line, MIK-ALL; and on a CD34(+)-enriched precursor cell population from normal human bone marrow. A single molecular weight species was generally observed with enriched membrane preparations, whereas two PECAM-1 molecules were present in whole-cell lysates of cell lines and the CD34+ bone marrow cell subset. Preliminary studies show that a proportion of the PECAM-1 molecules on the lymphomyeloid/multipotential progenitor cell line, KG1, and on the monocytic cell line, U937, binds to heparin-sepharose. A soluble form of PECAM-1 also binds heparin-sepharose. The high level of expression of PECAM-1 on CD34+ cells suggests that this glycoprotein may function as a heterotypic adhesion molecule, possibly mediating multipotential, myeloid, and early-B-lymphoid precursor cell interactions with stromal cells and extracellular matrix molecules via heparan sulfate proteoglycans. It may also act as a homotypic adhesion molecule by interacting with PECAM-1 on bone marrow stromal macrophage-like cells and endothelial cells or on endothelial cells during stem/progenitor cell migration. Thus, this molecule has the potential importance of directing both lineage commitment and trafficking of early hematopoietic progenitor cells.
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PMID:The heparin binding PECAM-1 adhesion molecule is expressed by CD34+ hematopoietic precursor cells with early myeloid and B-lymphoid cell phenotypes. 769 43

Adhesion molecule expression on acute and chronic lymphoid leukemia cells of B lineage (B-ALL and B-CLL) may subserve several functions. Adhesion of leukemic cells to endothelial cells and to extracellular matrix components is relevant to homing, trafficking and spread of the malignant cells, and thus to clinical presentation, course and disease prognosis. Adhesive interactions between malignant cells and accessory cells, particularly stromal cells in the bone marrow environment, may support growth of the malignant cells via cytokine-delivered messages. They may also deliver signals that prevent or trigger programmed cell death of tumor cells. Here we review data on the adhesive phenotype of leukemic blasts from pro-B (CALLA +) ALL and of cells from B-CLL cases. We show that expression of certain adhesion molecules may help define disease subsets with distinctive clinical and prognostic features. One adhesion molecule, the lymphocyte homing receptor CD44, allows definition of two groups of B-CLL patients with significantly different survival.
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PMID:Adhesion molecule expression on B-cells from acute and chronic lymphoid leukemias. 769 29

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