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)

1. The polysaccharide and mucopeptide components of the cell wall of Lactobacillus fermenti, serological group F, were separated by mild conditions of acid hydrolysis; the polysaccharide was composed of glucose and galactose. 2. Soluble cell-wall products were isolated from cell wall lysed by lysozyme and a Streptomyces enzyme preparation. The lysozyme-dissolved fraction contained a greater proportion of mucopeptide. 3. The soluble preparations were heated in dilute acid to hydrolyse the linkage between the polysaccharide and mucopeptide components and then incubated with acid phosphatase. 4. Inorganic phosphate was released from products of Streptomyces enzyme action but not from products of lysozyme action. 5. The phosphate was shown to be present in the mucopeptide as muramic acid phosphate. It is concluded that in the intact wall polysaccharide is joined to muramic acid by a phosphodiester linkage.
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PMID:Structure of the cell wall of Lactobacilli. Role of muramic acid phosphate in Lactobacillus fermenti. 566 52

1. The cell wall of Clostridium welchii (type A) contains alanine, 2,6-diaminopimelic acid, glutamic acid, glycine, glucosamine, muramic acid, galactosamine, mannosamine, ethanolamine, rhamnose, galactose and phosphorus. 2. Heating with formamide at 150 degrees resolved the wall into a formamide-soluble polysaccharide fraction and a formamide-insoluble mucopeptide fraction. 3. The formamide-soluble fraction contained two components: an electrophoretically neutral polysaccharide made up of galactose, rhamnose, galactosamine and phosphorus and an electrophoretically acidic polymer containing mannosamine, ethanolamine and phosphorus. 4. The formamide-insoluble residue has been digested by lysozyme to give soluble fragments of high molecular weight. 5. All fractions contain an unknown ethyl acetate-extractable substance that can be oxidized by sodium metaperiodate. 6. The amino acid compositions of the fragments produced by lysozyme are compatible with a mucopeptide structure which has cross bridges containing all of the constituent amino acids.
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PMID:Components of the cell wall of Clostridium welchii (type A). 596 41

Exposure of human neutrophils to 5(S),12(R)-dihydroxy-6,14-cis-8,10-trans-eicosatetraenoic acid (leukotriene B4, LTB4) resulted in a time- and concentration- (10(-9)-10(-6) M) dependent extracellular release of granule-associated lysozyme and myeloperoxidase (MPO). Enzyme extrusion was negligible if cells were not pretreated with cytochalasin B prior to exposure to LTB4. A time-dependent deactivation of granule exocytosis was observed in neutrophils which were stimulated with LTB4 prior to contact with cytochalasin B. LTB4-induced enzyme release was markedly enhanced in the presence of extracellular calcium. Nevertheless, significant enzyme discharge occurred in the absence of extracellular calcium, and the percent of total activity released was not altered in the presence of EGTA. The calmodulin antagonist, trifluoperazine (TFP), and the intracellular calcium antagonist, 8-(N,N-diethylamino)-octyl-(3,4,5-trimethoxy)benzoate hydrochloride (TMB-8), caused a dose-related inhibition of enzyme release from LTB4-stimulated neutrophils. Degranulation was suppressed by the glycolytic inhibitor, 2-deoxy-D-glucose (2-DG), and the sulfhydryl reagents iodoacetic acid (IA) and N-ethylmaleimide (NEM). Sodium cyanide was inactive. Two inhibitors of transmethylation, 3-deazaadenosine (3-DZA) and L-homocysteine thiolactone (HCTL), alone or in combination, had no effect on LTB4-elicited degranulation. The protein synthesis inhibitor, cycloheximide, was inactive. Neutrophils pretreated with LTB4 or 5(S),12(R),20-trihydroxy-6,14-cis-8,10-trans-eicosatetraenoic acid (20-OH-LTB4, an omega-oxidation metabolite of LTB4) were desensitized to the subsequent exposure to LTB4. Cross-desensitization was also demonstrated between LTB4 and 20-OH-LTB4. The stimulus specific nature of LTB4-induced desensitization of neutrophil degranulation was demonstrated by the fact that cells exposed to 1-O-hexadecyl/octadecyl-2-O-acetyl-sn-glyceryl-3-phosphorylcholine (AGEPC) or N-formyl-methionyl-leucyl-phenylalanine (FMLP) were capable of inducing granule exocytosis from LTB4-pretreated neutrophils. Enzyme release from LTB4-treated cells was suppressed with the phospholipase inhibitor, 4-bromophenacyl bromide (4-BPB), the cyclooxygenase/lipoxygenase inhibitor, ETYA, and the 5-lipoxygenase inhibitor, U-60, 257. However, the cyclooxygenase inhibitor, flurbiprofen, exerted a weak suppressive effect on LTB4-induced degranulation.
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PMID:Activation of the human neutrophil secretory process with 5(S),12(R)-dihydroxy-6,14-cis-8,10-trans-eicosatetraenoic acid. 609 46

Polyamines are natural constituents of most living organisms. However, their function in normal or pathological conditions is not fully understood. We have investigated in vitro effects of polyamines on characteristic properties of isolated renal brush-border membrane vesicles in order to determine whether polyamines have a regulatory role in membrane transport processes. The polyamines putrescine, spermidine and spermine were found to stimulate D-glucose uptake. Diffusional L-glucose uptake was not altered, indicating that the polyamines affected the active transport of D-glucose, rather than inducing nonspecific changes in membrane lipid properties. The amiloride-sensitive Na+ /H + exchange was slightly inhibited by polyamines while Mg2+ -ATPase activity was stimulated. The polyamine effects could not be explained solely by the polycationic properties of these agents, since polycationic polypeptides had an opposite effect. For example, lysozyme was found to inhibit D-glucose transport. Spermine was incorporated into the trichloroacetic acid-insoluble fraction of brush-border membrane proteins. Results indicated that this incorporation process consisted of at least two components: a Ca2+ -independent component and a Ca2+ -dependent component, possibly as a result of transglutaminase activity which was present in the isolated renal brush-border membranes. By using SDS-polyacrylamide gel electrophoresis in conjunction with fluorography, [3H]spermine was shown to be incorporated into several brush-border membrane proteins, mainly the 57 kDa, 74 kDa, 100 kDa, a heavy molecular weight band (greater than 200 kDa) and a low molecular weight band (less than 10 kDa). Our results suggest that the polyamine effects on membrane function may be due to a covalent modification of membrane proteins, possibly via a transglutaminase-mediated incorporation of polyamines or to the crosslinking of membrane proteins.
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PMID:Polyamines stimulate D-glucose transport in isolated renal brush-border membrane vesicles. 614 64

Several metabolic parameters indicative of Escherichia coli function and integrity were kinetically examined in response to treatment with normal human serum in the presence and absence of functional human lysozyme. Specific inhibition of this enzyme in bacteriolytic and bactericidal reactions was accomplished by using purified rabbit anti-human lysozyme immunoglobulin G. Initiation of the complement-mediated alterations of cytoplasmic membrane integrity, as judged by the leakage of 86Rb from prelabeled cells or the hydrolysis of o-nitrophenyl-beta-D-galactopyranoside by a cryptic strain, was found to be independent of lysozyme action. Furthermore, inhibition of macromolecular synthesis by E. coli in response to serum treatment occurred at the same time regardless of the functional state of lysozyme. Although the rate and extent of bacteriolysis were reduced in the absence of lysozyme, the bactericidal kinetics was unaffected. These results demonstrate that the lethal events associated with the action of antibody and complement on gram-negative bacteria are independent of lysozyme, suggesting an accessory role for this enzyme in immune reactions. A possible temporal sequence of complement-induced effects occurring at the cell surface is presented.
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PMID:Sequential metabolic expressions of the lethal process in human serum-treated Escherichia coli: role of lysozyme. 615 6

Bacillus subtilis 168 has been found to possess a high-affinity transport system for N-acetyl-D-glucosamine (GlcNAC). The Km for uptake was approximately 3.7 microM GlcNAc, regardless of the nutritional background of the cells. Apparent increases in Vmax were noted when the bacteria were grown in the presence of GlcNAc. The uptake of GlcNAc by B. subtilis was highly stereoselective; D-glucose, D-glucosamine, N-acetyl-D-galactosamine, D-galactose, D-mannose, and N-acetylmuramic acid did not inhibit GlcNAc uptake. In contrast, glycerol was an effective inhibitor of [3H]GlcNAc transport and incorporation. Partial inhibition of GlcNAc uptake was observed with azide, fluoride, and cyanide anions, carbonyl cyanide-m-chlorophenyl hydrazone, methyltriphenylphosphonium bromide, N,N'-dicyclohexylcarbodiimide, gramicidin, valinomycin, monensin, and nigericin. Two anions, arsenite and iodoacetate, were potent inhibitors of the uptake of GlcNAc in B. subtilis. Results from paper chromatography showed that there was no intracellular pool of free GlcNAc and that the acetylamino sugar was probably phosphorylated during transport. A modification of the Park-Hancock cell fractionation scheme indicated that cells grown on glycerol or D-glucose incorporated [3H]GlcNAc primarily into the cell wall fraction. When GlcNAc was used as the sole carbon source, label could be demonstrated in fractions susceptible to protease and nuclease, as well as lysozyme, showing that the N-acetylamino sugar was utilized in macromolecular synthesis and energy metabolism.
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PMID:Transport and incorporation of N-acetyl-D-glucosamine in Bacillus subtilis. 617 2

Cross-linked dimers of ribonuclease, added at a concentration of 0.05 mg/ml to the culture medium of hepatoma (HTC) cells, were previously shown to inhibit intracellular degradation of peroxidase taken up by endocytosis. Intracellular localization showed that endocytosed peroxidase does not reach lysosomes in dimer-treated cells. The present study shows that preloading of lysosomes with fluorescent anti-peroxidase IgG, obtained by exposing HTC cells for 48 h to 0.1 mg of antibody/ml, restores intracellular degradation of endocytosed peroxidase. Moreover, accumulation of peroxidase into lysosomes, which no longer occurs in dimer-treated cells, occurs again under these conditions. We conclude that inhibition of transfer of peroxidase from phagosomes to lysosomes is most likely to be the alteration resulting from the exposure of the cells to ribonuclease dimer, rather than inhibition of fusion between phagosomes and lysosomes. The dimer of another basic protein, lysozyme added at a concentration of 0.2 mg/ml to the culture medium, is shown to induce the same type of effects as does the dimer of ribonuclease; the half-life of endocytosed peroxidase increased from 5 to 15 h after 2 h exposure of HTC cells to dimerized lysozyme. The effect of both dimers on intracellular protein processing can be reversed by addition of 100 mm-galactose to the culture medium, up to 5 h after pretreatment of the cells. The dimers of ribonuclease A or of lysozyme have thus probably the same mechanism of action. Evidence that the two dimers share the same binding sites on the cells is presented.
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PMID:Effects of cross-linked dimers of ribonuclease A or of lysozyme on the processing of endocytosed peroxidase by hepatoma cells. 628 32

Pepstatin A, a chemotactic pentapeptide, elicited a concentration-dependent extracellular release of granule-associated beta-glucuronidase and lysozyme from, and generation of superoxide anion (O2-) by, cytochalasin B (CB)-treated human neutrophils. Prior exposure of neutrophils to pepstatin A before the addition of CB, suppressed, in a time-dependent fashion, the subsequent production of O2- and exocytotic response. The rate and amount of enzymes released and O2- generated by pepstatin A-activated neutrophils were significantly enhanced in the presence of extracellular calcium. Pepstatin A-elicited degranulation and O2- production were suppressed by the intracellular calcium antagonist, 8-(N,N-diethylamino)-octyl-(3, 4, 5-trimethoxy) benzoate hydrochloride (TMB-8). Granule exocytosis and O2- generation by pepstatin A-treated neutrophils were suppressed by the sulphydryl reagents, N-ethylmaleimide (NEM) and iodoacetic acid (IA), and by the glycolytic inhibitor, 2-deoxy-D-glucose (2-DG). Sodium cyanide was inactive. Preincubation of neutrophils with pepstatin A "desensitized' the cells to a subsequent exposure to pepstatin A or the chemotactic tripeptide, N-formyl-methionyl-leucyl-phenylalanine (FMLP). Pepstatin A-induced desensitization of granule enzyme release and O2- generation appears to be stimulus-specific in that phorbol myristate acetate (PMA) was capable of eliciting normal responses from pepstatin A-pretreated cells. The morphological changes observed in pepstatin A-treated neutrophils are reminiscent of those seen in cells exposed to FMLP.
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PMID:Biochemical, metabolic and morphological characteristics of human neutrophil activation with pepstatin A. 630 51

Evidence for transient localization of newly synthesized lipopolysaccharide at the periplasmic face of the inner membrane has been obtained by immunoelectron microscopic techniques. Salmonella typhimurium galE mutants in which O-antigen synthesis is dependent on addition of exogenous galactose were employed, and the distribution and fate of pulse-synthesized O antigen was examined by indirect ferritin labeling with anti-O-antigen IgG of spheroplasts prepared by treatment with lysozyme/EDTA. O-reactive lipopolysaccharide appeared rapidly at the exposed periplasmic face of the inner membrane after addition of galactose and was rapidly depleted upon termination of the pulse. Control experiments showed that secondary redistribution of lipopolysaccharide from outer membrane did not occur under the conditions employed for spheroplast formation and immunolabeling, and the pulse-chase kinetics were consistent with those expected for an intermediate in translocation of lipopolysaccharide to the outer membrane. In addition, undecaprenol-linked O antigen was detectable at the periplasmic face of the inner membrane within 30 sec after addition of galactose to a galE deep rough double mutant, and it accumulated stably in that location. The mutation in synthesis of the lipopolysaccharide core in the deep rough strain prevents transfer of O-antigen chains from undecaprenol phosphate to lipopolysaccharide. The result suggests that attachment of O antigen to lipopolysaccharide occurs on the extracytoplasmic side of the inner membrane and supports the conclusion that lipopolysaccharide is translocated to the outer membrane from the periplasmic, rather than the cytoplasmic, face of the inner membrane.
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PMID:An intermediate step in translocation of lipopolysaccharide to the outer membrane of Salmonella typhimurium. 633 98

Bacillus anthracis was agglutinated by several lectins, including those from Griffonia simplicifolia, Glycine max, Abrus precatorius, and Ricinus communis. Some strains of Bacillus cereus var. mycoides (B. mycoides) were strongly reactive with the lectin from Helix pomatia and weakly reactive with the G. max lectin. The differential interactions between Bacillus species and lectins afforded a means of distinguishing B. anthracis from other bacilli. B. cereus strains exhibited heterogeneity with respect to agglutination patterns by lectins but could readily be differentiated from B. anthracis and the related B. mycoides. Spores of B. anthracis and B. mycoides retained lectin receptors, although the heating of spores or vegetative cells at 100 degrees C resulted in a decrease in their ability to be specifically agglutinated. Fluorescein-conjugated lectin of G. max stained vegetative cells of B. anthracis uniformly, suggesting that the distribution of lectin receptors was continuous over the entire cellular surface. B. anthracis cells grown under conditions to promote the production of capsular poly(D-glutamyl peptide) were also readily agglutinated by the lectins, suggesting that the lectin reactive sites penetrate the polypeptide layer. Trypsin, subtilisin, lysozyme, and mutanolysin did not modify the reactivity of B. anthracis with the G. max agglutinin, although the same enzymes markedly diminished the interaction between the lectin and B. mycoides. Because the lectins which interact with B. anthracis are specific for alpha-D-galactose or 2-acetamido-2-deoxy-alpha-D-galactose residues, it is likely that the bacteria possess cell surface polymers which contain these sugars. Lectins may prove useful in the laboratory identification of B. anthracis and possibly other pathogenic Bacillus species, such as B. cereus.
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PMID:Differentiation of Bacillus anthracis and other Bacillus species by lectins. 641 61

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