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)

IL-8 and its structural analogs derived from blood platelets have been proposed as stimuli of IgE-independent basophil activation. In order to clarify the mechanism of action of these peptides, we examined the effects of pure IL-8, connective tissue-activating peptide III (CTAP-III), neutrophil-activating peptide 2 (NAP-2), and platelet factor 4 (PF-4) on blood basophils with and without pretreatment by IL-3, which modulates mediator release. After pretreatment with IL-3, significant histamine release was observed with 10(-8) M and 10(-7) M IL-8 and 10(-7) M NAP-2, but not with the other peptides. At higher concentrations (10(-6) M), however, all IL-8 analogs, as well as the unrelated cationic peptides poly-D-lysine, histone VS, and lysozyme, induced histamine release to variable degrees. Binding and competition studies with [125I]IL-8 revealed specific IL-8R on basophils from a patient with chronic myelogenous leukemia and normal individuals. From 3500 to 9600 receptors with a mean Kd value of 0.15 nM were found on average per chronic myelogenous leukemia and normal basophil, respectively. NAP-2 weakly competed for IL-8 binding. IL-8 and, to a lesser extent, NAP-2 led to a transient rise of cytosolic free calcium concentration ([Ca2+]i), which was independent of a preexposure to IL-3. IL-8 prevented the [Ca2+]i rise induced by NAP-2, but did not influence [Ca2+]i responses to other agonists, e.g. C5a, C3a, or platelet-activating factor. IL-8 induced [Ca2+]i changes and histamine release in IL-3-primed basophils were pertussis toxin sensitive. CTAP-III or PF-4 did not compete for IL-8 binding, did not induce [Ca2+]i changes, and did not influence the [Ca2+]i response to IL-8 and NAP-2. This study shows that IL-8 and NAP-2 activate human basophils by a receptor-mediated mechanism similar to that operating in neutrophils. At high concentrations histamine release can also be induced by cationic peptides by a mechanism that does not involve the IL-8R, and probably depends on cationic interactions.
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PMID:Activation of human basophils through the IL-8 receptor. 138 21

Effects of calcium removal on the cell-clearing activity of alpha-lactalbumin (alpha-LA) and concomitant changes in conformational structure have been investigated as part of a continuing study of the activity found earlier [McKenzie, H.A. & White, F.H., Jr. (1987) Biochem. Int. 14, 347]. This activity is similar to that of lysozyme, whereby lysis of the bacterial cell wall is catalyzed. However, the specific activity of alpha-LA is on the order of 10(-6) that of lysozyme. Under conditions where activities of apo and native alpha-LA were approximately linear functions of the protein concentration, the maximal ratio of apo to native activity was 5.7:1, determined by comparison of second order velocity constants. The CD spectrum of apo alpha-LA is intermediate between that of the A state and the native protein. By NMR, the conformation of apo alpha-LA is similar to, but distinctly different from, that of the native protein. The apo form did not revert completely to the native state when Ca(II) was resupplied, consistent with a role for this cation in folding. It is suggested that the activity increase may result from a diminished constriction of the "cleft" region in alpha-LA.
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PMID:Studies on cell-clearing activity in alpha-lactalbumin. Effects of calcium removal on activity and conformation. 139 66

Twenty-one child patients with thalassaemic major (TM) and 83 healthy control children were examined for dental caries and gingivitis. Stimulated parotid gland secretions were collected from each child. Parotid saliva flow rate was measured and the saliva samples were tested for calcium, phosphorus, potassium, sodium, urea, lysozyme and immunoglobulin levels (IgA, IgG, IgM). The results showed that dental caries experience was significantly higher in the TM group. Parotid saliva flow rates in TM patients were not significantly different from those in the healthy controls. However, the median saliva concentrations of phosphorus and IgA were significantly lower in the patients than in the controls. The concentration of lysozyme was also lower in the TM group, but the difference was not statistically significant. The findings could provide an explanation for the higher dental caries experience and gingivitis observed in the TM group.
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PMID:Flow rate and chemistry of parotid saliva related to dental caries and gingivitis in patients with thalassaemia major. 142 Jan 1

The thermodynamic change in the binding of Ca2+ to a mutant human lysozyme having an engineered Ca2+ binding site (Kuroki, R., Taniyama, Y., Seko, C., Nakamura, H., Kikuchi, M., and Ikehara, M. (1989) Proc. Natl. Acad. Sci. U. S. A. 86, 6903-6907) was analyzed by calorimetry and interpreted in terms of structural information obtained from x-ray crystallography. It was found that the enthalpic contribution for the Ca2+ binding reaction was small, driven primarily by entropy release (10 kcal/mol). This release of entropy was also observed in some organic chelators. Moreover, through the information of the tertiary structures of the apo- and holomutant lysozyme, it was confirmed that the entropy release (10 kcal/mol) upon the binding of Ca2+ arises primarily from the release of bound water molecules hydrating the free Ca2+. Previous studies of Ca2+ binding to proteins have involved significant changes in protein conformation. They can now be reevaluated to determine the contribution of conformational changes to Ca2+ binding. After removing the thermodynamic contribution of Ca2+ binding itself, it is found that upon the binding of Ca2+ the enthalpy change is negative but is almost compensated by the negative entropy change. The negative change in both enthalpy and entropy is characteristic of values seen in the thermodynamic change upon the folding of proteins.
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PMID:Thermodynamic changes in the binding of Ca2+ to a mutant human lysozyme (D86/92). Enthalpy-entropy compensation observed upon Ca2+ binding to proteins. 144 79

The stabilization mechanism of the mutant human lysozyme with a calcium binding site (D86/92) was investigated by using calorimetric approaches. By differential scanning calorimetry, the enthalpy change (delta H) in the unfolding of holo-D86/92 was found to be 6.8 kcal/mol smaller than that of the wild-type and apo-D86/92 lysozymes at 85 degrees C. However, the unfolding Gibbs energy change (delta G) of the holo mutant was 3.3 kcal/mol greater than the apo type at 85 degrees C, indicating a significant decrease of entropy (T delta S = 10.1 kcal/mol) in the presence of Ca2+. Subsequently, the Ca2+ binding process in the folded state of the mutant was analyzed by using titration isothermal calorimetry. The binding enthalpy change was estimated to be 4.5 kcal/mol, and delta G was -8.1 kcal/mol at 85 degrees C, which indicates that the binding was caused by a large increase in entropy (T delta S = 12.6 kcal/mol). From these analyses, the unfolded holo mutant was determined to bind Ca2+ with a binding delta G of -4.8 kcal/mol (delta H = -2.6 kcal/mol, T delta S = 2.2 kcal/mol) at 85 degrees C. Therefore, the major cause of stabilization of holo-D86/92 is the decrease in entropy of the peptide chain due to Ca2+ binding to the unfolded protein.
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PMID:Entropic stabilization of a mutant human lysozyme induced by calcium binding. 149 68

From fluorescence measurements on mixtures of bis-ANS and equine lysozyme and from Ca(2+)-dependent hydrophobic interaction chromatography of equine lysozyme, it is demonstrated that Ca2+ binding induces a conformational change upon which hydrophobic regions in the protein become less accessible. Bis-ANS fluorescence titrations in the absence of Ca2+ and in 2 mM Ca2+ are also performed with equine alpha-lactalbumin variants B and C. These variants differ by an amino-acid exchange Asp----Ile at residue 95. The fluorescence titration curves indicate that the accessibility of the probe to the Ca2+ conformers is clearly influenced by the mutation. The Ca(2+)-dependent exclusion of a hydrophobic domain is used in a new and simplified method for preparing lysozyme and alpha-lactalbumins simultaneously from equine milk whey.
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PMID:Hydrophobic interaction of lysozyme and alpha-lactalbumin from equine milk whey. 150 92

To clarify the requirement of the association of substrate proteins with phospholipid membranes for phosphorylation by protein kinase C (PKC), we studied the relationship between membrane association of PKC-substrate proteins and their phosphorylation by PKC. In the presence of phosphatidylserine, 12-O-tetradecanoylphorbol-13-acetate induced PKC autophosphorylation in either the presence or the absence of Ca2+, and this phosphorylation was not inhibited by increasing salt concentration (up to 200 mM NaCl). Thus, Ca2+ and ionic strength did not markedly affect the enzymatic activity of PKC. Annexin I required Ca2+ for both its association with phospholipid membranes and phosphorylation by PKC, whereas histone and monomyristilated lysozyme (C14:0-lysozyme) did not. This result indicates that the membrane association of substrates closely correlates with their phosphorylation by PKC. Similar correlation was also observed in the effects of ionic strength on the membrane association of the substrates and their phosphorylation by PKC; increased ionic strength (200 mM NaCl) remarkably inhibited both the membrane association and the phosphorylation of histone and annexin I by PKC but C14:0-lysozyme was not markedly affected. These results suggest that the membrane association of PKC-substrate proteins is a prerequisite for their phosphorylation by PKC. This concept further conforms to the mechanisms of PKC inhibitors; some types of PKC inhibitors are mediated all or in part through inhibition of the substrate-membrane interaction.
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PMID:Requirement of protein association with membranes for phosphorylation by protein kinase C. 153 81

In an earlier study we found that different forms of the v-myb oncogene transform myeloid cells which resemble either monoblasts [when v-myb of avian myeloblastosis virus (AMV) was used] or promyelocytes [when a point mutant in v-myb of AMV was used; Introna, M., Golay, J., Frampton J., Nakano, T., Ness, S.A. & Graf, T. (1990). Cell, 63, 1287-1297]. In the present study we have searched for genes expressed in AMV mutant-transformed promyelocytes that are not expressed in AMV-transformed monoblasts using a differential screening approach. Eight different genes were identified among more than 500 differentially expressed clones. The most abundant of these was the previously identified myb-regulated mim-1 gene. The others were found to encode a small calcium-binding (MRP-like) protein; the p20K protein; goose-type lysozyme; a ribonuclease A/angiogenin-related protein; and three non-identified proteins. Although these genes appear to be rather lineage restricted, their expression varied in different subtypes of transformed myelomonocytic cells, and only two of them (goose lysozyme and ribonuclease) showed a similar expression pattern in normal promyelocytes and macrophages, suggesting an aberrant gene regulation in the transformed cells. Co-transfection experiments of a reporter construct containing the promoter of the ribonuclease A-related gene indicated that this promoter is regulated by the v-Myb oncoprotein without the involvement of Myb-specific binding sequences.
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PMID:Identification of genes differentially expressed in two types of v-myb-transformed avian myelomonocytic cells. 154 65

The crystal structure of a calcium binding equine lysozyme has been determined at 2.5 A resolution by means of molecular replacement. The energy minimized equine lysozyme as the starting model, was refined with the molecular dynamics program, X-PLOR, and the R factor of the current model was found to be 24% without any water molecules. The conformation of the calcium binding loop is similar to that of alpha-lactalbumin. The profiles of backbone atomic displacements throughout the lysozyme and alpha-lactalbumin superfamilies are comparable as well as their homologous tertiary structures.
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PMID:Crystallographic studies of a calcium binding lysozyme from equine milk at 2.5 A resolution. 156 37

The present studies indicate that 50 nM-10 microM-staurosporine increased cytosolic free Ca2+ concentrations ([Ca2+]i) of fura-2-loaded neutrophils in a non-linear manner. The rise in [Ca2+]i was rapid, reaching a plateau (e.g. to 0.4 microM with 1 microM-staurosporine) within 30 s, and was maintained for more than 20 min. Pretreating cells with pertussis toxin had no effect on this reaction. The elevation of [Ca2+]i was insensitive to extracellular Ca2+ concentrations and was due entirely to mobilization of intracellular Ca2+ stores. Mn(2+)-quench studies confirmed the absence of Ca2+ influx. No Ca2+ efflux occurred in staurosporine-treated cells. In combination studies, staurosporine potentiated Ca2+ influx induced by N-formylmethionyl-leucyl-phenylalanine (FMLP) and did not block Ca2+ efflux associated with peptide stimulation of neutrophils. Studies with permeabilized cells showed that staurosporine did not directly release intracellular Ca2+ stores, nor did it affect the sequestration of Ca2+ by a Ca2+/ATPase pump. A radioligand-binding assay failed to detect changes in the level of inositol 1,4,5-trisphosphate in neutrophils incubated with less than or equal to 1 microM-staurosporine, but in cells treated with 10 microM-staurosporine the assay recorded a transient increase in this second messenger similar to that induced by FMLP. Finally, lysozyme, but not beta-glucuronidase, was released from staurosporine-treated cells. The present results suggest that staurosporine increased [Ca2+]i by indirectly mobilizing internal Ca2+ stores. Staurosporine suppression of Ca2+ efflux and generation of a persistent signal may account for the maintained elevation of [Ca2+]i.
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PMID:Staurosporine clamps cytosolic free Ca2+ concentrations of human neutrophils. 157 94

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