EC:1.11.1.7 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.11.1.7 (peroxidase)
65,474 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The phenomenon of giant anomalous lysosome formation in human Chediak-Higashi syndrome leukocytes was analyzed. Ultrastructure findings combined with cytochemical procedures for visualizing acid phosphatase and peroxidase activity showed giant anomalous granules in addition to normal, small and enlarged granules. Massive granules in lymphocytes had an appearance and structure different from those found in other leukocytes. The giant granules seem to be a product of an active fusion between primary and secondary normal sized or enlarged lysosomes. This fusion occurs in polymorphonuclear neutrophils, eosinophils and in monocytes. No fusion was found in lymphocyte granules.
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PMID:Large granules and lysosomal fusion in human Chediak-Higashi white blood cells. 6 33

We used immunofluorescent microscopy to characterize the abnormal granules in neutrophils from five patients with Chediak-Higashi disease. Monospecific antiserums to the azurophilic markers myeloperoxidase, elastase, cathepsin G and lysozyme, and to the specific granule markers lactoferrin and lysozyme, were labeled with fluorescein and rhodamine and were used to demonstrate two antigens in the same cell simultaneously. The abnormal granules in Chediak-Higashi neutrophils contained both azurophilic and specific granule markers. Normal-appearing lactoferrin-positive granules were also present, but normal azurophilic granules were not seen. Analysis of bone-marrow samples from two of these patients suggested that the abnormal granules were formed during granulocyte maturation by the progressive aggregation and fusion of normally formed azurophilic and specific granules. These results are consistent with a membrane abnormality or a defect of microtubular function leading to inappropriate granule fusion, and suggest that the granular abnormality is more generalized than previously appreciated.
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PMID:Immunocytochemical identification of azurophilic and specific granule markers in the giant granules of Chediak-Higashi neutrophils. 7 4

The maximum bactericidal capacity of neutrophils from a patient with the Chediak-Higashi syndrome (CHS) was measured by a quantitative assay in which the neutrophils were challenged with increasing multiples of Staphylococcus aureus, 502A. At various bacterial challenges from 0.5 to 65 bacteria per neutrophil, the CHS cells killed normal numbers of bacteria in 60 minutes. However, at higher ratios with a mean of 118 bacteria per neutrophil, the percentage of bacteria killed in 60 minutes by CHS neutrophils (8.1 +/- 2.3%) was significantly less (P < 0.001) than that killed by normal neutrophils (44 +/- 2.3%). The CHS neutrophils lagged in their ability to kill low challenges of bacteria (0.5 or 1.2 bacteria per neutrophil) only at 20 minutes. A hydrogen-peroxide-producing strain of Streptococcus faecalis was killed normally by the CHS neutrophils at 60 minutes, with all ratios of challenge up to 114 to 1. Electron microscopic examination of 60-minute specimens from high ratios of challenge that were stained for myeloperoxidase activity revealed a failure of many bacteria-laden phagosomes to display this marker of degranulation. The results of this study indicate that the maximal bactericidal capacity of CHS neutrophils is saturated by a significantly lower challenge of bacteria than is required to saturate normal cells. This appears to be the result of sequestration of a significant portion of these cells' bactericidal resources in the giant granules that do not participate appreciably in degranulation.
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PMID:The Chediak-Higashi syndrome: quantitation of a deficiency in maximal bactericidal capacity. 10 31

A method of blood granylocyte concentration and isolation of granules from both normal and neutropenic Chediak-Higashi syndrome (CHS) patients is described. the intracellular distribution of activity for several hydrolases in CHS granulocytes differs from normal; significantly more activity is present in the cytoplasmic fraction and correspondingly less is granule-associated. Isolated CHS granules are not more sensitive to the labilizing agents vitamin A, progesterone, or etiocholanolone. Specific activities of myeloperoxidase and ss-glucuronidase in CHS granulocytes are lower than normal while alkaline phosphatase is elevated. Other lysosomal enzyme activities are normal. Lysosomal enzyme distribution and content are similar in CHS and normal mononuclear cells. The possible significance of these findings is discussed.
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PMID:Lysosomal enzymes in normal and Chediak-Higashi blood leukocytes. 17 Mar 48

Humans and grey collie dogs with cyclic neutropenia are known to suffer from an increased rate of bacterial infection. Because of the previously described microanatomic abnormalities of lysosome formation found in the polymorphonuclear leukocytes (PMNs) of dogs with canine cyclic neutropenia, studies of these cells were undertaken. PMNs from grey collie dogs were found to have significant metabolic and functional abnormalities when compared with normal collie PMNs. These included abnormally increased postphagocytic C1-glucose oxidation, decreased iodination of trichloroacetic acid-precipitable protein in the resting and phagocytizing state, decreased levels of intracellular myeloperoxidase,and a bactericidal defect against a variety of bacteria. Phagocytosis was normal. These abnormalities appear to differ from those previously described in the PMNs of patients with chronic granulomatous disease of childhood and the Chediak-Higashi syndrome and more closely resemble those seen in hereditary myeloperoxidase deficiency. Thus, the studies reported here demonstrate defective PMN function in a disease state previously believed to be a model only of periodic hematopoiesis.
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PMID:Defective polymorphonuclear leukocyte metabolism and function in canine cyclic neutropenia. 17 40

Blood leukocytes from a patient with Chediak-Higashi syndrome (CHS) were compared with normal cells for their capacity of extruding (exocytosis) the lysosomal enzyme myeloperoxidase during phagocytosis or after a treatment with the ionophore A23187 and Ca2+. A decreased rate and extent of exocytosis in phagocytizing CHS cells was observed also with the Ca2+ ionophore. This suggests that a defect in Ca2+ mobilization is not responsible for the impaired secretion of granule content. Isolated granules of CHS cells and of leukocytes were treated with the detergent Triton X-100. Since the solubilization of myeloperoxidase from the CHS granules was much lower than from the normal ones, we suggest that the former organelles have a more resistant membrane.
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PMID:Biochemical studies on the leukocytes in Chediak-Higashi syndrome. 19 18

Ten cases of acute granulocytic leukemia with blast cells containing Auer bodies (ABs) have been studied by electron microscopy after cytochemical demonstration of myeloperoxidase. The cytochemical dense reaction product has been used as a dark field to visualize unreactive protein of ABs which may then be easily identified by its negative contrast. This method has allowed us to identify three types of ABs which differ in their substructure. In type I, (five patients with promyelocytic leukemia), our study confirmed that all of the ABs consisted of a hexagonal arrangement of hollow tubes. Cells from four cases of acute myeloblastic leukemia displayed type II ABs, in which a unique pattern of protein associated in a regular linear arrangement with well defined periodicity was identified. Type III appeared characteristic of a subclass of acute myeloblastic leukemia in which large inclusions with Chediak-Higashi-like granules containing numerous micro-ABs were seen. The configuration, size, and organization of the protein in the crystal were distinct from those seen in the two other types of ABs. These features suggest that the nature of the protein in ABs may be heterogeneous.
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PMID:Three types of Auer bodies in acute leukemia. Visualization of their protein by negative contrast after peroxidase cytochemistry. 22 15

Leukemic myeloblasts containing abnormal granules were studied with ultrastructural, cytochemical, and thymidine labeling techniques to evaluate defects in granulogenesis and proliferation. Giant granules (1 to 3 micron in diameter) and Auer rods were observed in leukemic cells from two patients, and only rarely were both abnormal granule types observed in the same cell. The lysosomal origin of these abnormal granules was demonstrated by their content of peroxidase, esterase, and anionic glycoconjugates. Fusion of small dense granules (less than 0.2 micron in diameter) appeared to be increased in cells containing Auer rods and/or giant granules, but fusion of intact primary granules (0.2 to 0.4 micron in diameter) and sequestration of cytoplasmic contents were observed only in giant granules and not in Auer rods. Although the small granules that fused to form giant granules and Auer rods appeared similar, there was no evidence for transformation of giant granules into Auer rods. In one patient, cells with abnormal granules could easily be distinguished from the larger population of cells that lacked abnormal granules. The perturbation of these two distinct populations by chemotherapy was evaluated with thymidine labeling experiments. A high percentage (2- or 3-fold greater) of the abnormally granulated myeloblasts incorporated tritiated thymidine when compared to myeloblasts without abnormal granules in the same specimen. This difference could have resulted from an underlying metabolic defect which affected both granulogenesis and cell division. These results demonstrate that the formation of giant granules in leukemic cells is morphologically similar to that observed in the Chediak-Higashi syndrome and that leukemic cells with abnormal granules may differ cytokinetically from uninvolved leukemic cells.
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PMID:Ultrastructure and cytokinetics of leukemic myeloblasts containing giant granules. 28 35

Neutrophils and monocytes are the prime defenders of the body against suppurative bacterial and fungal infections. To accomplish their role in inflammation, they must respond appropriately to chemotactic signals elaborated from complement and bacteria. This response predictably results in the adherence and subsequent directed movement of the phagocytes toward the infected area where they recognize opsonized microbes. Attachment of the microbes to the membrane of the cell leads to their ingestion and subsequent demise, principally by the reduced oxygen by-product H2O2, which is generated by the neutrophils and monocytes during phagocytosis. Optimal killing requires the translocation of granule myeloperoxidase into the phagocytic vacuole containing the bacteria and a suitable halide ion. Degranulation is controlled, in part, by assembled microtubules whereas ingestion requires assembly of submembrane microfilaments. Deficiency states resulting from vitamin E results in diminished membrane-related chemotaxis and ingestion, whereas depletion of cellular GSH results in defective microtubule assembly preventing the normal increase in adherence, chemotaxis, degranulation, and microbicidal activity of the phagocytic cells. Deficiency states resulting in dysfunction of the microtubule system include neutrophil glutathione synthetase deficiency, rodent glutathione peroxidase deficiency, and the Chediak-Higashi syndrome.
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PMID:Role of membrane vitamin E and cytoplasmic glutathione in the regulation of phagocytic functions of neutrophils and monocytes. 39 94

Initial clinical, genetic, cytochemical and ultrastructural studies have characterized the Chediak-Higashi syndrome in cats. Three cats with Chediak-Higashi syndrome were found in a single line of 27 Persian cats, and three additional affected cats were produced from two prospective breedings of the original line. The disorder was characterized genetically as an autosomal recessive condition. All cats in the line with the combination of yellow eye color and "blue smoke" hair color exhibited the disorder. Four of the five cats examined had bilateral nuclear cataracts as early in life as 3 months of age. No increased susceptibility to infectious disease was observed. A bleeding tendency was noted. Abnormally large eosinophilic, sudanophilic, peroxidase-containing granules were observed in the neutrophils of the granulocytic series of blood and bone marrow by electron and light microscopy. Granules of eosinophils and basophils were also enlarged. Light microscopic studies of hair and skin revealed enlarged melanin granules. These manifestations were similar to those in man, mink, cattle, mice, and the killer whale with Chediak-Higashi syndrome. Cats are the sixth species in which this genetic disease has been reported.
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PMID:The Chediak-Higashi syndrome of cats. 86 82

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