EC:3.2.1.17 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Villous stromal cells (VSC) play an important role in fetomaternal placental immune function. We studied the phenotype of VSC in infection by cytomegalovirus (CMV) and syphilis as well as nonspecific villitis and compared the findings with gestational age-matched controls. Monoclonal antibodies directed against total leukocytes, T cells, B cells, macrophages, dendritic cells, granulocytes and HLA-DR as well as polyclonal antibodies against S-100, alpha-1 antichymotrypsin, and lysozyme were used. In controls, the immunocytochemical response for each marker was either negative or weakly positive. In contrast, the VSC in CMV-infected and nonspecific villitis showed intense reactivity to various macrophage markers. In syphilis, reactivity with macrophage markers such as lysozyme and MAC387 were weaker, and reactivity to HLA-DR and S-100 was much stronger. Endothelial cells strongly expressed the monocyte/granulocyte marker CD15 in the diseased states, especially in syphilis, relative to controls. We conclude that the phenotype of VSC is altered in disease states and that the changes are dependent to some degree on the specific subset of chronic villitis.
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PMID:Phenotype of villous stromal cells in placentas with cytomegalovirus, syphilis, and nonspecific villitis. 132 17

Multiple intradural xanthomatous tumors developed in 48-year-old female with familial phytosterolemia. These tumors were restricted to the spinal denticulate ligaments. Histological and immunohistochemical findings were fundamentally similar to those of tendinous xanthomas. The major cellular component of these tumors were identified as of mono-histiocytic origin because they possessed myeloid histiocytic antigen (Mac 387), CD11c and lysozyme but not CD15. Sitosterols, campesterols and cholestanols were recovered from the extract of the tumors and the lesions were confirmed to be phytosterolemic xanthomas. Schwann cells stained with anti-S100 protein were confined to the perivascular small nerve bundles and did not show xanthomatous change. Although immunohistochemical preparation of epithelial membrane antigen and desmoplakin I+II revealed the presence of non-neoplastic meningothelial cells in the superficial portion of the tumors, they were too few to play a significant role in the development of these xanthomas.
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PMID:Immunohistochemical analysis of spinal intradural xanthomatosis developed in a patient with phytosterolemia. 137 59

A case of malignant histiocytosis with rearrangements of both T-cell receptor and immunoglobulin genes. The patient was a 69 year-old woman suffering from high fever, which was unresponsive to the administration of various antibiotics and steroids for more than two weeks. Laboratory findings on admission revealed disseminated intravascular coagulopathy and liver dysfunction. The bone marrow examination showed an increased number of giant cells. Some of the giant cells had phagocytosis of various blood cells and were cytochemically stained with non-specific esterase, but not with myeloperoxidase and PAS. Immunohistochemical study revealed that alpha 1-antitrypsin alpha 1-antichymotrypsin, lysozyme and CD15 were all detected in the cytoplasm of some giant cells while CD30 was not detected. Of interest was the rearrangements of the T-cell receptor, Ig heavy chain and kappa chain genes on bone marrow mononuclear cells demonstrated by Southern blot analysis.
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PMID:[Malignant histiocytosis with T cell receptor and immunoglobulin gene rearrangements]. 147 96

To provide baseline information on the immunoarchitecture of normal bone marrow, we studied cryostat-cut, frozen, and paraffin-embedded, fixed tissue sections prepared from 21 core biopsies of normal bone marrow obtained during bone marrow harvests for transplantation. A large panel of antibodies was applied that included, for frozen tissue, Leu-6 (CD1), T11 (CD2), Leu-3a (CD4), Leu-1 (CD5), Leu-2a (CD8), J5 (CD10), My7 (CD13), Leu-11 (CD16), B4 (CD19), B1 (CD20), B2 (CD21), Tac (CD25), My9 (CD33), T200 (CD45), NKH-1 (CD56), kappa and lambda chains, beta F1, Ki-67, HLA-DR, TQ1, and keratin, and for fixed tissue, leukocyte common antigen (CD45), L26 (CD20), LN1 (CDw75), LN2 (CD74), LN3, LN4, LN5, MB1 (CD45R), MB2, MT1 (CD43), MT2 (CD45R), UCHL1 (CD45R0), BM1, Ki-1 (CD30), Leu-M1 (CD15), lysozyme, KP1 (CD68), actin, S100, neuron-specific enolase, vimentin, and keratin. On fresh-frozen sections CD19 and CD2 were the most reliable and sensitive markers for B and T cells, staining 5% and 9% of marrow cells, respectively. Immunoglobulins generally showed heavy background staining, which frequently precluded an accurate assessment. The CD4 to CD8 ratio in the bone marrow was reversed from that of peripheral blood. On fixed tissues, leukocyte common antigen was found in 14% of the marrow cells, corresponding roughly to the lymphocyte population. L26, a pan-B-cell marker, stained 3% of the marrow cells. Among the other B-cell markers, LN1 and MB2 stained a large number of cells (40% to 70%), indicating reactivity with cells of the myeloid or erythroid series in addition to lymphocytes. Among the T-cell markers, UCHL1 and MT1 stained 66% and 50% of the cells, respectively, which could be explained by their cross-reactivity with myeloid cells. Nonspecific myelomonocytic markers (Leu-M1, KP1, and lysozyme) also showed reactivity in a high percentage of cells. No particular architectural distribution patterns of B or T lymphocytes were noted in either frozen or fixed bone marrow specimens. The results of this study provide normal baseline data for the immunohistologic application of hematopoietic and lymphoid markers on frozen or fixed bone marrow biopsy specimens.
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PMID:Immunoarchitecture of normal human bone marrow: a study of frozen and fixed tissue sections. 159 93

A detailed immunologic study of three cases of sinus histiocytosis with massive lymphadenopathy (SHML) was performed to better characterize this rare disorder. One patient had prominent cervical lymphadenopathy that regressed spontaneously, whereas the other two patients had persistent cervical lymphadenopathy and recurrent infections. The first patient was otherwise healthy and had normal immunologic studies. One of the latter patients had a relative increase in blood B cells, a decreased level of serum immunoglobulin A (IgA), decreased blood lymphocyte mitogenic responses to multiple mitogens (37-42% of controls), and cutaneous anergy. The other patient with persistent disease also had a relative increase in blood B cells, polyclonal hypergammaglobulinemia, and circulating immune complexes, as well as decreased blood T cells and markedly decreased blood lymphocyte responses to mitogens (12-37% of controls). Immunohistochemical stains of the lymph nodes of the three patients revealed a characteristic phenotype for the sinus histiocytes: S-100 protein, 3/3; CD14 (Leu M3) 3/3; CD11c (Leu M5), 1/1; CD71 (OKT9), 3/3; CD4 (Leu 3a), 2/3; CD1a (OKT6), 1/3; alpha-1-antitrypsin, 3/3; alpha-1-antichymotrypsin, 3/3; CD35 (C3b), 1/1; CD11b (Mo1), 0/3; CD15 (Leu M1), 0/3; HLA-DR, 0/3; and lysozyme, 0/3. This phenotype suggests that the cells of SHML have features of both the Langerhans/interdigitating cell and mononuclear phagocyte lineages. Emperipolesis by the histiocytes of B cells, T cells, and natural killer cells was demonstrated by a double-staining technique. Our findings indicate that patients with SHML may have a variably expressed immunodeficiency that predisposes them to recurrent infections.
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PMID:Sinus histiocytosis with massive lymphadenopathy: a spectrum of disease associated with immune dysfunction. 171 75

Immunologic studies have demonstrated that the vast majority of hematolymphoid neoplasms previously designated as "histiocytic" are lymphoid in origin. Consequently, malignancies of macrophage lineage are considered rare by most authors; indeed, their existence is doubted by some. Herein we report two cases of malignant histiocytic neoplasms (malignancies of macrophage lineage) of the small intestine. Both patients presented in the 7th decade with symptoms related to an abdominal mass. The polypoid tumors protruded into the intestinal lumen, extended through the entire thickness of the bowel wall, and involved regional lymph nodes. Microscopically, sheets of large pleomorphic histiocytic cells infiltrated around crypts and were associated with an admixture of bizarre giant cells and inflammatory cells. Mitotic figures were easily found. Ultrastructurally, the cells lacked desmosomes and had indented or kidney-shaped nuclei and cytoplasm containing mostly lysosomes and dense lipid droplets. In both cases, paraffin section immunohistochemistry revealed reactivity of tumor cells for CD45RB (LCA), CD45RO (A6), CD68 (KP1), CD15 (LeuM1), and lysozyme. Frozen section immunohistochemistry performed in one case further supported the macrophage phenotype. Southern blot studies of this case did not reveal immunoglobulin or T-cell receptor beta chain gene rearrangements. One patient initially treated by surgery only died of disease 3 years after diagnosis. The second patient is alive and disease-free 2 years following postoperative combination chemotherapy. The diagnosis of malignant histiocytic neoplasms requires the use of a panel of immunohistochemical markers and may be supported by electron-microscopic studies.
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PMID:Malignant histiocytic neoplasms of the small intestine. 172 94

The term "plasmacytoid T-zone cells" has been used to describe distinctive cells that occur in clusters in the paracortex of some reactive lymph nodes. Recently, tumorous proliferations of these cells have been described in several patients with myelomonocytic leukemias. Neither the nature of these cells nor their relationship to myeloid leukemia has been conclusively established. We report the case of a 64-year-old woman with chronic myelomonocytic leukemia who developed lymphadenopathy that proved to be due to tumorous accumulation of plasmacytoid T-zone cells in the interfollicular regions of the lymph nodes. She underwent splenectomy because of symptomatic splenomegaly; the resected spleen also contained aggregates of plasmacytoid T-zone cells, in addition to extramedullary hematopoiesis. On treatment with busulphan and prednisone, the lymphadenopathy resolved and did not recur. The patient died 7 years later with blast transformation of her myelomonocytic leukemia and no recurrence of lymphadenopathy. The aggregates of plasmacytoid T-zone cells were architecturally and cytologically distinct from the leukemic infiltrates of myeloid cells in the spleen, and there was no evidence of differentiation of these cells into myeloid or monocytic cells. A panel of monoclonal antibodies on paraffin sections revealed no lineage-specific T- or B-cell markers (UCHL1-, L26-), and the plasmacytoid cells were positive for CD68 (KP1) and L60 (CD43), as well as faintly positive for 4KB5 (CD45RA) and MB1 (CD45R). They did not stain with antibodies to myeloid lineage antigens CD15, lysozyme, or myeloperoxidase. The combination of clinical, morphologic, and immunologic features of plasmacytoid T-zone cells in this case suggests that these cells may be of monocytic lineage but are not direct precursors of mature monocytic or granulocytic cells, and may not be part of the neoplastic clone in patients with myelomonocytic leukemia.
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PMID:Plasmacytoid T-zone cell proliferation in a patient with chronic myelomonocytic leukemia. Histologic and immunohistologic characterization. 184 25

A panel of monoclonal antibodies (anti-CD45 [common leukocyte antigen], Ki-B3, L26, MT1, UCHL1, anti-CD15 [X-hapten], anti-neutrophil granule protein elastase [NP57]), anti-lysozyme, and the naphthol-ASD-chloroacetate reaction were applied to two cases of granulocytic sarcoma (GS) for evaluation of their utility in differentiating GS from malignant lymphoma. Lysozyme and naphthol-ASD-chloroacetate esterase were found to be the most reliable markers for detection of the myeloid nature of the tumour cells. GS infiltrated solely the mucosa of the nasal cavity in one case, while in the other it involved both the nasal cavity and maxillary sinus with simultaneous eruptions on the skin of the trunk. In both cases, peripheral blood and bone marrow findings were inconspicuous at the time of diagnosis of GS.
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PMID:Immunohistochemical differential diagnosis of granulocytic sarcomas and malignant lymphomas on formalin-fixed material. 210 52

Two Hodgkin's Reed-Sternberg cell (H-RS) lines, HDLM-1 and KM-H2, have phenotypes and functional properties very similar to those of H-RS cells in tissues. These two types of cells were induced to differentiate with a combination of phorbol ester, retinoic acid, and extracellular matrix. The induced cells displayed the morphology of histiocytes or histiocytelike cells, with a small, round or oval, eccentric nucleus and abundant cytoplasm. In ultrastructural studies, many cytoplasmic projections and rugae were observed. These induced cells exhibited abundant cytoplasmic lysosomal enzymes, such as esterase, acid phosphatase, alpha 1-antitrypsin, or lysozyme. The histiocytic nature of these induced cells was further confirmed by the increased expression of many monocyte/histiocyte markers, including CD11b, CD11c, CD13, CD14, CD15, CD33, CD68, Mac387, and 1E9. In functional tests, the induced cells were shown to produce interleukin-1, tumor necrosis factor, macrophage colony-stimulating factor, and/or prostaglandin E2. Phagocytosis was detected in less than 5% to 10% of the cells when Candida albicans was added to cultures. The results strongly suggest that H-RS cells are related to cells of histiocyte lineage.
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PMID:Cultured Reed-Sternberg cells HDLM-1 and KM-H2 can be induced to become histiocytelike cells. H-RS cells are not derived from lymphocytes. 216 11

Several immunohistochemical methods are now available for the staining of neoplastic cells in tissue sections. The authors have found that the alkaline phosphatase-anti-alkaline phosphatase (APAAP) method is sensitive and reliable. Murine monoclonal or nonmurine polyclonal antibodies can be used to label a variety of membranous and/or cellular constituents in tissues that have been routinely processed in a histopathology laboratory. The monoclonal antibody against leukocyte common antigen (CD45) can be used to differentiate hematologic from nonhematologic tumors. Monoclonal antibodies (L26, LN1, LN2, LN3, MB1, MB2) label B-cell lymphomas, whereas other monoclonal antibodies (UCHL1, MT1) more characteristically stain T-cell lymphomas. Polyclonal antibodies against CD3 specifically mark neoplastic cells from T-cell lymphomas and leukemias but as yet are not commercially available. Monoclonal antibodies Leu-M1 (CD15), Ber H2 (Ki-1; CD30), and LN2 label Reed-Sternberg cells from most cases of nodular sclerosis, mixed cellularity, and lymphocyte-depleted Hodgkin's disease. Monoclonal antibodies Mac 387, KP1 (CD68), and NP57 (antielastase), as well as polyclonal antibodies against lysozyme, help identify subtypes of acute myeloid leukemia and extramedullary myeloid cell tumors. Although there are now excellent reagents ready for use, there is still a significant need for more lineage-specific (particularly against CD epitopes) monoclonal antibodies capable of labeling neoplastic cells in paraffin-embedded tissue sections from patients with hematologic malignancies.
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PMID:Immunophenotyping of hematologic neoplasms in paraffin-embedded tissue sections. 218 Feb 77

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