EC:3.2.1.17 - FACTA Search

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Query: EC:3.2.1.17 (lysozyme)
21,489 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A case of lymphocyte-depletion Hodgkin's disease is described for the purpose of reviewing the criteria currently used to distinguish this disease from other pleomorphic large-cell malignancies. A 76-year-old man with a 3-month history of daily fevers underwent extensive evaluation and exploratory laparotomy, which revealed only two large, separate splenic tumor nodules. Postoperatively, the patient remained asymptomatic. Histologically, the tumor was composed of giant cells, including both typical Reed-Sternberg forms and mononuclear variants with inflammatory stromal response along its borders. Immunoperoxidase showed tumor cells to be strongly reactive for Leu-M1 (CD15), BER-H2 (CD30), Leu-3 (CD4), and T11 (CD2) and weakly reactive for Leu-4 (CD3) but nonreactive for EMA, LCA, lysozyme, Leu-9, Leu-M3, Leu-M5, and immunoglobulin light chains. Southern blot analysis revealed an isolated clonal band for kappa light chain only. Included in the discussion of this case of primary splenic lymphocyte-depletion Hodgkin's disease is a review of clinical, histologic, immunohistochemical, and gene-rearrangement characteristics of what can be defined as lymphocyte-depletion Hodgkin's disease.
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PMID:Primary splenic lymphocyte-depletion Hodgkin's disease. 222 Jun 73

The clinical association of lymphomatoid papulosis and Hodgkin's disease and the striking morphologic similarity of atypical cells in lymphomatoid papulosis to Reed-Sternberg cells in Hodgkin's disease suggest that lymphomatoid papulosis and Hodgkin's disease are related. To test this possibility we studied the antigenic profile of Reed-Sternberg cells in the lymph nodes and of atypical cells in cutaneous lesions of lymphomatoid papulosis in two patients with Hodgkin's disease and lymphomatoid papulosis. In paraffin sections both cell types expressed CD30, CD45 T cell-restricted antigens, and occasionally CD15 antigens. They were negative for CD45 B cell-restricted antigens and for lysozyme. In cutaneous lymphomatoid papulosis lesions a similar immunologic profile of the atypical cells was found; that is, they were positive for CD30, CD2, CD3, and CD25 but negative for B cell and macrophage antigens. The similarity of the immunophenotype of Reed-Sternberg cells in lymph nodes affected by Hodgkin's disease and the immunophenotype of atypical cells of lymphomatoid papulosis lesions in the same patients suggests that the malignant cells in both conditions are derived from activated T cells and that they are closely related if not identical.
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PMID:Hodgkin's disease followed by lymphomatoid papulosis. Immunophenotypic evidence for a close relationship between lymphomatoid papulosis and Hodgkin's disease. 237 Mar 46

Reagents that recognize antigens on lymphoid cells in fixed and wax-embedded sections have been applied to a series of cases of non-Hodgkin's lymphomas. The panel consisted of MB1, 4KB5 (CD45r), LN1, L26 and MB2 which recognize antigens expressed predominantly on B-lymphocytes; UCHL1 and MT1 which recognize antigens expressed on T-lymphocytes and myeloid cells; antibodies recognizing the non-lineage antigens LeuM1 (CD15), BerH2 (CD30), anti-EMA; anti-lysozyme and MAC 387 which detect antigens present on some macrophages; and finally TAL1B5 (class II MHC), CAM 5.2 (low molecular weight cytokeratin) and PD7/26 + 2B11(CD45). Two hundred and four cases of non-Hodgkin's lymphoma have been studied, of which 158 had been fully characterized on frozen sections. The series was biased towards high-grade (n = 108) and T-cell (n = 44) tumours and these were largely prospectively accrued. It was found that discrimination between B-cell and T-cell lymphomas can be reliably achieved using these reagents and that a small panel (CD45, L26, MB2, MT1, UCHL1) is adequate for this purpose. Using the full range of reagents it is not possible to subdivide cases into groups that correspond with morphological subtypes of lymphoma. Although paraffin section immunohistochemistry is of value, the diagnosis of lymphoproliferative disorders must still be based upon the assessment of well fixed, carefully prepared tissue sections using conventional tinctorial methods.
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PMID:Paraffin section immunohistochemistry. I. Non-Hodgkin's lymphoma. 326 64

Using an in vitro expansion and differentiation system for human CD34+ cord blood (CB) progenitor cells, we analyzed the induction and expression kinetics of the granulomonocyte associated lysosomal proteins myeloperoxidase (MPO), lysozyme (LZ), lactoferrin (LF), and macrosialin (CD68). Freshly isolated CD34+ CB cells were negative for LZ and LF, and only small proportions expressed MPO (4% +/- 2%) or CD68 (3% +/- 1%). Culturing of CD34+ cells for 14 days with interleukin (IL)-1, IL-3, IL-6, stem cell factor, granulocyte-macrophage colony-stimulating factor (GM-CSF), and G-CSF resulted in on average a 1,750-fold amplification of cell number, of which 83% +/- 7% were MPO+. Without addition of GM-CSF and G-CSF, lower increases in total cell numbers (mean, 211-fold) and lower proportions of MPO+ cells (54% +/- 11%) were observed. The proportion of MPO+ cells slightly exceeded but clearly correlated with the proportion of cells positive for the granulomonocyte associated surface molecules CD11b (Mac-1), CD15 (LeX), CD64 (Fc gamma RI) CD66, or CD89 (Fc alpha R). At day 14 MPO+ and LZ+ cells were virtually identical. However, at earlier time points during culture (days 4 and 7), single MPO+ or LZ+ cell populations were also observed, which only later acquired LZ and MPO, respectively. Maturation of cells into the neutrophilic pathway was indicated by the acquisition of MPO, followed by LZ. In contrast, maturation of cells into the monocytic pathway was indicated by the acquisition of LZ followed by MPO and CD14. CD68 was found to be expressed at day 4 by the majority of cells and was not restricted to the granulomonocytic cells, as cells with megakariocytic (CD41+) or erythroid (CD71hi) features were CD68+. LF expression was observed only in GM- plus G-CSF-supplemented cultures, in which only 26% +/- 5% of cells expressed LF by day 14.
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PMID:Granulomonocyte-associated lysosomal protein expression during in vitro expansion and differentiation of CD34+ hematopoietic progenitor cells. 749 68

An immunohistochemical study by avidin-biotin-peroxidase was performed on paraffin-embedded and decalcified bone marrow biopsies in 31 acute leukemias (19 myeloid and 12 lymphoblastic). The Ulex Europaeus lectin and 14 antibodies (anti-CD45, -CD34, -myeloperoxidase, -lysozyme, -CD15, -CD68, -carcinoembryonic antigen, -factor VIII-related antigen, BNH9, anti-CD45RO, -CD3, -CD20, DBB42 and DBA44) were tested. All acute myeloid leukemias from M0 to M5 type were stained by either the anti-myeloperoxidase or anti-lysozyme antibodies. CD68, CD15 and the carcinoembryonic antigen were respectively expressed in 80%, 40% and 20% of myeloid leukemias from M1 to M5 type. The Ulex Europaeus lectin and the anti-factor VIII-related antigen antibody stained only the M7 leukemia and the anti-CD3 antibody stained only the T acute lymphoblastic leukemia. DBB42 was expressed by 63% of B-lineage lymphoblastic leukemias and CD20 by 36%. No leukemia was stained by DBA44. Immunohistochemistry on bone marrow biopsy can assess the lineage of most acute leukemias with the use of a panel of antibodies such as the anti-myeloperoxidase, -lysozyme, -CD68, -CD20, DBB42, -CD3, BNH9, anti-factor VIII-related antigen antibodies and the Ulex Europaeus lectin.
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PMID:[Immunohistochemical characterization of acute leukemia. Study of 31 bone marrow biopsies]. 753 64

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

Granulocytic sarcoma (GS) is a solid tumor of extramedullary localization constituted by immature precursors from the granulocytic series. GS may be diagnosed in different malignant blood diseases involving the granulocytic series, acute non lymphoblastic leukemia (ANLL) being the most frequent, followed by myelodysplastic syndromes (MDS) and chronic myeloproliferative syndromes, specially chronic myeloid leukemia (CML) in blastic crisis. Although the diagnosis of GS is suspected with conventional cytologic and anatomopathologic studies, histochemical staining and immunohistochemical techniques are often required for definitive diagnosis. Five cases (4 males, 1 female; age range 22-77 years) diagnosed with GS in one center over a period of nine years (1984-1993) are described. The GS were located in the lymph nodes, the jaw, paravertebral region, gallbladder and retroperitoneum, respectively. Two patients had refractory anemia with excess of blasts (RAEB). Three patients had ANLL; in one GS constituted the form of relapse, in another GS presented at the time of diagnosis and in the remaining patient GS preceded the diagnosis of ANLL. All the patients died from 2 to 8 months after diagnosis of GS with no response to treatment being observed. Immunohistochemical study of the tumor was performed in 4 patients, being positive for lysozyme and the monocytic MAC-387 monoclonal antibody. Immunocytochemical study of the tumor blasts was carried out with positivity for CD15 being observed. Although uncommon, GS should be suspected in patients with ANLL or MDS with tumors of any localization and at any time during its evolution. Immunocytochemical and immunohistochemical studies are of great value to differentiate GS from other tumors, particularly anaplastic non Hodgkin's lymphomas.
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PMID:[Granulocytic sarcoma: a study of 5 cases]. 770 32

The clinicopathological and immunohistochemical features of four patients with systemic multicentric reticulohistiocytosis (MR) were compared with five cases of solitary and one case of multiple reticulohistiocytoma (RH), which were confined to the skin only. The MR cases mostly affected the limbs of older women, while RH affected young male adults without preference to site. Characteristically, both entities consisted of oncocytic mononuclear histiocytes (with granular eosinophilic cytoplasm similar to oncocytic thyroid cells) and multinucleated histiocytes with a ground-glass appearance, which appeared to be much larger (> 200 microns) and bizarre in cases of RH compared with cases of MR (50-100 microns). In RH a variable number of vacuolated, spindle-shaped, and xanthomatized mononuclear histiocytes were also present. Immunohistochemical profiles showed positivity of mononuclear histiocytes with HHF35, factor XIIIa, and LN3 (HLA-DR), with a variable number of multinucleated histiocytes in RH showing binding with peanut agglutinin. In mono- and multinucleated histiocytes in both entities macrophage markers KP1 (CD68), KiM1P, HAM56, lysozyme, and alpha 1-antitrypsin were positive. However, macrophage markers MAC387 (L1 antigen) and Leu-M1 (CD15) were negative. Vimentin was universally positive in both conditions, with all other markers (S100, desmin, smooth muscle-specific actin, and QBEnd 10 [CD34]) negative. This study shows that histology supplemented by immunocytochemistry delineates MR from RH and immunohistochemical profiles indicate a cell lineage relationship between RH and adult xanthogranuloma.
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PMID:Reticulohistiocytoma and multicentric reticulohistiocytosis. Histopathologic and immunophenotypic distinct entities. 859 81

In evaluating histologically malignant infiltrates in the skin, it is often challenging to distinguish granulocytic sarcoma (GS) from selected cases of peripheral T-cell lymphoma (PTCL). These lesions have clinical features in common, in addition to shared histologic attributes. These include similarity in dermal distribution and growth pattern, nuclear characteristics, propensity to recruit other inflammatory cell types, and production of matrical sclerosis. In order to determine if immunohistology could contribute to differential diagnosis in this setting, we analyzed 15 cases of mucocutaneous GS, and compared them with 11 cases of well-documented PTCL. Antibodies in the CD15, CD20, CD34, CD43, CD45, CD45RO, and CD68 groups were used, as well as anti-myeloperoxidase (anti-MPX), anti-lysozyme (anti-LYSO), Mac387, and MB2. Anti-LYSO and anti-MPX were sensitive and specific markers of GS, labeling 93% and 80% of GS cases, respectively, and no cases of PTCL. Anti-CD15 and MB2 were also specific for GS, but each labeled only 60% of GS cases. CD34, CD68, and Mac 387 were specific but insensitive markers of GS. CD43 and CD45 were not particularly useful discriminants, with each being seen in 93% of GS cases, but also 64% and 100% of cases of PTCL, respectively. CD45RO was specific for PTCL; it was present in 82% of PTCL cases and no GS cases. Thus, conjoint reactivity for CD43, CD45, MPX, and LYSO characterizes GS, and differs from the pattern of PTCL, which is characterized by reactivity for CD45 and CD45RO, occasional reactivity for CD43, and lack of other specified markers.
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PMID:Granulocytic sarcoma: an immunohistologic comparison with peripheral T-cell lymphoma in paraffin sections. 796 23

An HTLV-I-immortalized human T cell line (JP-2), a N-methyl-N'-nitro-N-nitrosoguanidine-treated JP-2 line (JP-2T), and an adult T cell leukemia cell line (ATL-1T) were examined morphologically and phenotypically. All of these cell lines expressed some T cell markers, including CD4, and showed rearrangement of T cell receptor (TCR) genes, but they lacked CD3 and TCR antigens and expressed some myelomonocytic markers (CD68, HL-21, CD15, CD16). JP-2 cells grew in suspension, but JP-2T and ATL-1T cells, which mostly adhered to the surface of culture vessels, showed macrophage-like morphological features and expressed more monocyte/macrophage markers (lysozyme, alpha 1-antitrypsin) and fibronectin. ATL-1T cells transplanted into SCID mice lost the macrophage features. These results suggest that HTLV-I infected T cells can express some macrophage features and that these cells may provide a model that will be useful in elucidating the phenotypic variability of T cell lymphomas.
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PMID:Aberrant expression of the monocyte/macrophage phenotype in a human T cell line immortalized by HTLV-I and an adult T cell leukemia/lymphoma cell line. 802 48

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