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)

44 patients suffering from myelomonocytic leukemia (MML) have been observed over the last four years. They have been subclassified in acute myelomonocytic and acute monoblastic leukemias (AMML, n = 12; AMoL, n = 10), subacute myelomonocytic leukemias (SMML, n = 13), and chronic myelomonocytic leukemias (CMML, n = 9) on the basis of bone marrow cytology(blast and promonocyte counts, maturation of granulopoesis) and cytochemical findings (peroxydase and unspecific esterase reaction). This subclassification has been proved to be of prognostic relevance by its good correlation with the mean survival times (AMML : 4.5 months, AMoL : 2.4 months, SMML : 8 months, CMML : 18 months). The acute forms have been treated in general with combined cytostatic chemotherapy, whereas SMML and CMML have been treated this way only in case of progression to an acute phase. These progressions to an AMML have been observed more often and earlier in subacute forms than in chronic forms. The diagnosis of SMML and CMML is supported by the finding of sea-blue histiocytes in the bone marrow, increased lysozyme levels in serum and urine and by the absence of the Philadelphia-Chromosome.
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PMID:[Myelomonocytic leukemia: clinical, cytological, and cytogenetic studies of acute, subacute, and chronic forms (author's transl)]. 26 23

According to criteria established by the French-American-British (FAB) classification, a diagnosis of acute myelomonoblastic leukemia (FAB M4) is based on the presence of 20% bone marrow monocytes or a serum lysozyme level that exceeds the reference value by three times. Reported here is a case of acute myelogenous leukemia with eosinophilia and a cytogenetic inversion of chromosome 16 (inv 16) that lacks morphologic, cytochemical, and immunophenotypic features of monocytic differentiation, but which is associated with an elevated serum lysozyme value. The authors used an immunoelectron microscope to localize lysozyme to both normal and abnormal eosinophil granules, in addition to the secondary granules of myeloid precursors and monocytes. This enzyme could not be demonstrated within the myeloblasts of the patient studied. Postfixation with osmium tetroxide greatly reduced the staining intensity within the crystalloids of normal eosinophils, but only minimally affected that of monocytes, neutrophils, normal eosinophil granule matrix, and the abnormal granules of the leukemic eosinophils. These results demonstrate that lysozyme is present in both normal and leukemic eosinophils and that elevation of serum lysozyme in patients with acute myelogenous leukemia with eosinophilia is not a reliable indicator of monocytic differentiation. Furthermore, an occasional case of acute leukemia with inv 16 is classifiable as acute myelogenous leukemia with differentiation (FAB M2).
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PMID:The significance of an elevated serum lysozyme value in acute myelogenous leukemia with eosinophilia. 154 87

Acute myelomonocytic leukemia (M4; French-American-British classification) is light microscopically defined as the leukemia constituting leukemic cells in both granulocytic and monocytic lineages. Therefore, the characteristics of M4 have not been fully elucidated. The author previously indicated that normal neutrophilic granulocytes could be ultrastructurally differentiated from normal monocytes by the double staining of lactoferrin and lysozyme. In this investigation, the ultrastructural localization of both proteins were observed in order to make the outline of M4 clear. The leukemic cells in acute myeloid leukemia (M2) were also examined in comparison with those in M4. The leukemic cells in M4 showed the double stainability of lactoferrin and lysozyme, and the positive reactions were localized in the cytoplasmic matrix and in the granules. The staining pattern was similar to that in M2. The coexistence of lactoferrin and lysozyme in the leukemic cells in M4, which has ultrastructurally the monocytic characteristics, implied that the leukemic cells also possess the characteristics of the cells in the granulocytic lineage. This suggests that the presence of the various leukemic cells in the granulocytic lineage. This suggests that the presence of the various leukemic cells signifies the diversely abnormal maturations in vivo of the monocytes/granulocytes precursor cell and that M4 consists of not two kinds of distinguishable cells of granulocytic and monocytic lineages but various consecutive cells based on a malignant transformation of the precursor cell.
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PMID:Acute myelomonocytic leukemia: an immunoelectron microscopic study. 223 18

To identify adults with acute nonlymphocytic leukemia at risk for the development of central nervous system involvement, we performed periodic cerebrospinal fluid examinations on patients in remission. Among 58 consecutive patients monitored during first remission, central nervous system leukemia developed in nine (16 percent). Four patients, including one who was symptomatic, had central nervous system leukemia detected simultaneously with marrow relapse. Five additional patients were asymptomatic and continue to have bone marrow remission. Following central nervous system and systemic treatment, two of these five patients have never had relapse, and three had relapse in the bone marrow five, 10, and 21 months later. Factors at diagnosis associated with the subsequent development of central nervous system leukemia were elevated leukocyte count, serum lysozyme and lactate dehydrogenase, extramedullary infiltration including splenomegaly, and monocytic (FAB M4 or M5a) morphology. In six of 17 patients (35 percent) with monocytic morphology, central nervous system leukemia developed compared with only three of 41 patients (7 percent) with other subtypes (p = 0.02). Discriminant analysis identified leukocyte count, splenomegaly, and M4 or M5a morphology as the most important risk factors and led to a mathematical formula that correctly identified 90 percent of the patients. Although the risk of central nervous system leukemia in adults with acute nonlymphocytic leukemia is too low to justify routine prophylaxis, those patients recognized to be at a greater risk should receive prophylaxis or be monitored closely with periodic lumbar punctures.
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PMID:Central nervous system involvement in acute nonlymphocytic leukemia. A prospective study of adults in remission. 366 83

Fifteen of 73 newly diagnosed patients with acute myeloid leukemia (AML), admitted to Mount Sinai Hospital between July 1977 and October 1979, presented with leukocyte counts greater than 100,000/microliter. Eleven of these 15 patients with hyperleukocytosis had myelomonocytic (AMML-M4) or monocytic (AMOL-M5) leukemia compared to 15 of 58 patients with lower white cell counts (p < 0.001). Identification of type of leukemia, using the FAB classification, was based on morphology and special stains, including myeloperoxidase, Sudan black B, periodic acid-Schiff and nonspecific esterase with and without inhibition by fluoride. The proportion of patients with splenomegaly is higher in those with hyperleukocytosis (73 percent) than in those with lower white blood cell counts (p < 0.001) regardless of cell type. Leukemic infiltration of the skin, gums and central nervous system was seen exclusively in patients with AMML and AMOL. The serum lysozyme levels were significantly higher for all patients with AMML and AMOL regardless of the white blood cell count. The mean serum lysozyme for M-4, M-5 patients was 59.7 microgram/ml compared to 18.9 microgram/ml in patients with other cell types (p < 0.0001). Patients with a white blood cell count less than or equal to 100,000/microliter had a complete remission rate of 69 percent compared to 47 percent for patients with higher white blood cell counts.
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PMID:Association of monocytic leukemia in patients with extreme leukocytosis. 693 15

The value of immunohistochemical staining in the subtyping of acute leukemia was investigated on 36 routinely processed (formalin-fixed and paraffin-embedded) trephine biopsy specimens from the iliac crest containing diffuse infiltrates of acute myelogenous leukemia (AML; n = 23) and acute lymphoblastic leukemia (ALL; n = 13). These were stained with a broad panel of antibodies (n = 23) against various leukocyte antigens, among them 11 macrophage-associated antibodies (MAAs): Ki-M1p, MAC387, HAM56, LN5, KP1 (CD68), PG-M1 (CD68), Ki-M4p, DAKO-DRC (CD35), and antibodies against lysozyme, alpha 1-antichymotrypsin, and S100 protein. The French-American-British (FAB) classification subtypes of the AML cases, as determined by enzyme-cytochemical and/or immunocytological investigation of bone marrow smears, were as follows: M1 = 6, M2 = 5, M4 = 7, M5 = 3, and AML (not classified) = 2. The 13 cases of ALL were classified as follows: c-ALL (pre-B-ALL) = 7, B-ALL = 3, T-ALL = 2, and ALL (not classified) = 1. All the MAAs except LN5, Ki-M4p, and DAKO-DRC stained blast cells in AML. However, the number of stained blast cells varied considerably within and between the individual subtypes (M4/5 > M2/1). Using Fisher's exact test a significant difference in frequency of blast cell staining between AML and ALL was found for four MAAs (anti-lysozyme, MAC387, Ki-M1p, and KP1) and two of the three myeloid cell markers applied (Ki-My2p and anti-neutrophil elastase). Of these six antibodies, the combination of anti-lysozyme and KP1 can be recommended for use in routine diagnostics for the differentiation of AML from ALL on the basis of immunohistochemical staining because both of these antibodies were found to stain a relatively large percentage of cases of AML but none of ALL. However, none of the MAAs were found to discriminate reliably between the FAB M4/5 and M1/2 subtypes of AML.
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PMID:Assessment of the value of immunohistochemistry in the subtyping of acute leukemia on routinely processed bone marrow biopsy specimens with particular reference to macrophage-associated antibodies. 805 22

By means of the immunocytochemical method, the level of cytoplasmic lysozyme in leukocytes from healthy volunteers (n = 50) and from patients with uremia (n = 50), leukocytosis (n = 50), various forms of leukemia (n = 36) and myelodysplastic syndrome (MDS) (n = 7) were analysed, and compared with that of simultaneously assayed serum lysozyme. Both the cytoplasmic and serum levels of lysozyme in uremia and leukocytosis were significantly higher than normal subjects (p < 0.001). No correlation, however, was found between their cytoplasmic and serum levels of lysozyme. Morphological analysis for various kinds of leukemia and MDS indicated that myelocytic and monocytic cells became highly positive for lysozyme staining with maturation, and that lymphocytes, leukemic myeloblasts and monoblasts were negative. The cytoplasmic and serum lysozyme levels of leukemias or MDS having a number of lysozyme-positive cells were elevated as compared with those of normal individuals. Among them acute myelocytic leukemia (FAB M4) revealed an excellent correlation between the lysozyme levels in cytoplasm and in serum. The rest whose serum lysozyme level tend to be lower than the cytoplasmic one gave poor correlation. Thus, serum lysozyme level is not fully reflected by the cytoplasmic level. The dual determination of cytoplasmic and serum lysozyme is suggested to be helpful on estimating leukemia types, the degree of cellular maturation and total cell mass, and might also provide a valuable tool for prediction of prognosis for these disorders.
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PMID:[The interrelation of serum lysozyme level and cytoplasmic lysozyme level]. 815 64

We report on an 81-year-old man with acute myelo-monocytic leukemia (FAB M4) and a long-standing history of psoriasis. Biopsy of psoriatic plaques revealed the coexistence of characteristic histopathologic aspects of psoriasis together with an infiltrate of blasts with features of myelo-monocytes, suggestive of a specific leukemic infiltrate within plaques of psoriasis. Immunohistologic stainings showed positivity of blasts for LN2 (CD74), MT1 (CD43), and lysozyme, consistent with a myeloid lineage of these cells. To the best of our knowledge, this is the first report on the association of psoriasis with myelogenous leukemia. The presence of leukemic cells within psoriatic skin plaques may be explained by non-specific recruitment of recirculating malignant cells to the skin. Alternatively, as psoriasis is an inflammatory disease involving granulocytes among other cell types, it may be hypothesized that leukemic cells retain to some extent their capability to respond to physiologic stimuli and enter the skin in response to specific chemotactic factors.
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PMID:Leukemic cells within skin lesions of psoriasis in a patient with acute myelogenous leukemia. 955 Mar 20