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)

We have found that human polymorphonuclear leucocytes (PMN) can be stimulated by large aggregates (heat-aggregated IgG, chemically polymerized IgG, heavily aggregated human immune complexes) and by surface-bound immune complexes (IC) to release enzymes (lysozyme, beta glucuronidase) and a factor(s) able to induce platelet aggregation and ATP release from the platelets. Surface-bound IC were most effective in stimulating the release of this factor(s). We used several substrates for their preparation: plastic-adsorbed antigen. Sepharose-coupled antigen and polymerized antigen. The platelet-aggregating factor(s) released by IC-stimulated PMN and zymosan-stimulated PMN were compared for their susceptibility to inhibition by indomethacin. Both induced a first phase of platelet aggregation that was resistant to indomethacin, but the second phase of aggregation and the release of platelet ATP were inhibited to a variable degree, more pronounced in the case of the factor(s) released after PMN-IC interaction. The lack of inhibition of the early phases of aggregation induced by our factor(s) when platelets were simultaneously exposed to indomethacin suggests that the classical, phospholipid PAF is released under these experimental conditions. Although, further experiments will be necessary to fully characterize the factor(s) involved, our observations suggest a complex interrelationship between human PMN and platelet activation, which may play an important role in the sequence of events that mediate the tissue deposition of IC and appearance of inflammatory changes.
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PMID:Polymorphonuclear leucocytes release a factor(s) that induces platelet aggregation and ATP release after interaction with insoluble and surface-fixed immune complexes. 717 1

Cell-free extracts were prepared from either freshly grown or spray-dried cells of Micrococcus luteus ATCC 4698 by treatment with deoxyribonuclease and lysozyme. These extracts converted o-succinylbenzoic acid (OSB) to 1,4-dihydroxy-2-naphthoic acid (DHNA) as shown by spectrophotofluorometric and radioactivity assays. The conversion required the presence of ATP, CoA, and Mg2+. By use of [2-14C]OSB, the simultaneous production of the spirodilactone form of OSB was also demonstrated. The two products formed from OSB was also demonstrated. The two products formed from OSB were further characterized by gas chromatography combined with mass spectrometry. The production of the spirodilactone was suppressed by the addition of a preparation of the enzyme DHNA synthase obtained from Mycobacterium phlei. (This enzyme catalyzes the conversion of a CoA derivative of OSB to DHNA.) On mild acid treatment, the M. luteus extracts retained the ability to produce spirodilactone but lost the ability to form DHNA. These results are interpreted to mean that an OSB-CoA derivative is an intermediate in the conversion of OSB to DHNA by M. luteus and that two enzymes are involved, one to form the OSB-CoA derivative and the second to carry out a cyclization reaction.
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PMID:Conversion of o-succinylbenzoate to dihydroxynaphthoate by extracts of Micrococcus luteus. 735 57

We have studied the effects of the Sulfolobus solfataricus chaperonin on the aggregation and inactivation upon heating of four model enzymes: chicken egg white lysozyme (one 14.4-kDa chain), yeast alpha-glucosidase (one 68.5-kDa chain), chicken liver malic enzyme (four 65-kDa subunits), and yeast alcohol dehydrogenase (four 37.5-kDa subunits). When the proteins were heated in the presence of an equimolar amount of chaperonin, 1) the aggregation was prevented in all solutions; 2) the inactivation profiles of the single-chain enzymes were comparable with those detected in the absence of the chaperonin, and enzyme activities were regained in the solutions heated in the presence of the chaperonin upon ATP hydrolysis (78 and 55% activity regains for lysozyme and alpha-glucosidase, respectively); 3) the inactivation of the tetrameric enzymes was completely prevented, whereas the activities decreased in the absence of the chaperonin. We demonstrate by gel filtration chromatography that the chaperonin interacted with the structures occurring during thermal denaturation of the model proteins and that the interaction with the single-chain proteins (but not that with the tetrameric proteins) was reversed upon ATP hydrolysis. The chaperonin had nonequivalent surfaces for the binding of the model proteins upon heating: the thermal denaturation intermediates of the single-chain proteins share Surfaces I, while the thermal denaturation intermediates of the tetrameric proteins share Surfaces II. ATP binding to the chaperonin induced a conformation that lacked Surfaces I and carried Surfaces II. These data support the concept that chaperonins protect native proteins against thermal aggregation by two mechanistically distinct strategies (an ATP-dependent strategy and an ATP-independent strategy), and provide the first evidence that a chaperonin molecule bears functionally specialized surfaces for the binding of the protein substrates.
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PMID:Prevention of in vitro protein thermal aggregation by the Sulfolobus solfataricus chaperonin. Evidence for nonequivalent binding surfaces on the chaperonin molecule. 749 1

A full-length cDNA for a novel isoform of the human receptor tyrosine phosphatase gamma gene (PTPRG) was overexpressed in Sf9 insect cells, and the gene product, PTP gamma, was purified and characterized. The protein was expressed as a M(r) approximately 185,000 protein accompanied by a M(r) approximately 120,000 putative cleavage product on SDS-PAGE analysis. The protein undergoes N-linked glycosylation and constitutive phosphorylation of serine residues. When assayed for tyrosine-specific phosphatase activity, PTP gamma dephosphorylated myelin basic protein at a pH optimum of 7.5 and a Km of 12.6 microM; reduced carboxyamidomethylated and maleylated lysozyme (RCM-lysozyme) at a pH optimum of 6.0 and a Km of 12 microM; and p-nitrophenylphosphate with a pH optimum of 5.5 and a Km of 3.5 mM. Phosphatase activity was inhibited by ZnCl2 and sodium orthovanadate; Mg2+, Mn2+, and Ca2+ ions were ineffective. The partially purified form of the enzyme was allosterically activated by triphosphorylated nucleosides, with a preference for purines. This activation was prevented by Mg2+ addition and did not occur when a purified form of the enzyme was utilized, suggesting that its activation depends on specific activating factors or conformational constraints. Interestingly, PTP gamma protein was specifically bound by an ATP-agarose matrix through its intracellular domain, suggesting a link between binding of nucleotides and activation of the phosphatase.
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PMID:Characterization of the receptor protein tyrosine phosphatase gene product PTP gamma: binding and activation by triphosphorylated nucleosides. 758 20

A sandwich ELISA has been developed to measure intracellular levels of multi-ubiquitin chains. The mixture of multi-ubiquitin chains, prepared in vitro by incubation of ubiquitin (plus 125I-ubiquitin) and lysozyme with ubiquitin-ligating enzymes and ATP, was partially purified and established as a standard named the multi-ubiquitin-chain reference preparation 1 (MUCRP1). The concentration of MUCRP1 was calculated from the recovered radioactivity of 125I-ubiquitin. All measurements by the ELISA were expressed in terms of MUCRP1. The ELISA showed good sensitivity (98 pg/ml), precision (intra-assays < 6%) and reproducibility (interassay < 9%). In addition, there was no substantial cross-reaction with mono-, di- and tri-ubiquitin, or mono-ubiquitinated and di-ubiquitinated lysozyme in the ELISA, and large multi-ubiquitin chains (n > approximately 6) may be fully reactive. These results combined with excellent results in the recovery and dilution tests guarantee accurate measurement of multi-ubiquitin chains in cell extracts prepared with a lysis buffer (water soluble) or the buffer supplemented 8 M urea (urea soluble). The level of the water-soluble multi-ubiquitin chains in reticulocytes was lower than that of erythrocytes, but the urea-soluble chain level was higher in the reticulocytes. Heat-shock treatment of HeLa cells increased the urea-soluble multi-ubiquitin chains. These data indicate that this ELISA provides a useful and reliable approach to the study of intracellular multi-ubiquitin-conjugate turnover.
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PMID:Immunoassay for the quantification of intracellular multi-ubiquitin chains. 758 72

We have isolated a chaperonin from the hyperthermophilic archaeon Sulfolobus solfataricus based on its ability to inhibit the spontaneous refolding at 50 degrees C of dimeric S. solfataricus malic enzyme. The chaperonin, a 920-kDa oligomer of 57-kDa subunits, displays a potassium-dependent ATPase activity with an optimum temperature at 80 degrees C. S. solfataricus chaperonin promotes correct refoldings of several guanidine hydrochloride-denatured enzymes from thermophilic and mesophilic sources. At a molar ratio of chaperonin oligomer to single polypeptide chain of 1:1, S. solfataricus chaperonin completely inhibits spontaneous refoldings and suppresses aggregation upon dilution of the denaturant; refoldings resume upon ATP hydrolysis, with yields of active molecules and rates of folding notably higher than in spontaneous processes. S. solfataricus chaperonin prevents the irreversible inactivations at 90 degrees C of several thermophilic enzymes by the binding of the denaturation intermediate; the time-courses of inactivations are unaffected and most activity is regained upon hydrolysis of ATP. S. solfataricus chaperonin completely prevents the formation of aggregates during thermal inactivation of chicken egg white lysozyme at 70 degrees C, without affecting the rate of activity loss; ATP hydrolysis results in the recovery of most lytic activity. Tryptophan fluorescence measurements provide evidence that S. solfataricus chaperonin undergoes a dramatic conformational rearrangement in the presence of ATP/Mg, and that the hydrolysis of ATP is not required for the conformational change. The ATP/Mg-induced conformation of the chaperonin is fully unable to bind the protein substrates, probably due to disappearance or modification of the substrate binding sites. This is the first archaeal chaperonin whose involvement in protein folding has been demonstrated.
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PMID:The chaperonin from the archaeon Sulfolobus solfataricus promotes correct refolding and prevents thermal denaturation in vitro. 783 6

Folding catalysts of the endoplasmic reticulum (ER), such as protein disulfide isomerase (PDI), accelerate the slow chemical steps, such as disulfide bond formation, that accompany protein folding. Molecular chaperones of the ER, notably the heavy chain-binding protein, BiP (grp78), bind and release unfolded proteins in an ATP-dependent fashion. In vitro, the fate of reduced, denatured lysozyme is dependent on whether the substrate interacts first with BiP or PDI. Depending on the ratio of PDI to substrate and order in which the components of the reaction are mixed, PDI can exhibit a foldase/chaperone activity, which increases the rate and extent of lysozyme refolding, or it can function as an anti-chaperone that promotes the formation of inactive, disulfide-linked lysozyme aggregates (Puig, A., and Gilbert, H.F. (1994) J. Biol. Chem. 269, 7764-7771). Reduced, denatured lysozyme, but not the native protein, interacts with BiP and efficiently stimulates its peptide-dependent ATPase activity. When present at substoichiometric amounts, BiP, like PDI, facilitates the formation of large, inactive lysozyme aggregates that are non-covalently associated with BiP. BiP and PDI compete for a limited number of sites in these insoluble aggregates. If BiP is present at a high molar excess, the chaperone binds unfolded lysozyme and inhibits its aggregation by maintaining it in a soluble, yet inactive, conformation, both in the presence or absence of ATP. Increasing concentrations of BiP decrease the extent, but not the initial rate, of refolding, suggesting that BiP and PDI compete for unfolded lysozyme and that the BiP-lysozyme complex is not a very good substrate for PDI either in the presence or absence of ATP. Depending on the BiP and PDI concentrations, unfolded lysozyme may either be efficiently refolded into the native conformation in a PDI-catalyzed reaction, or it may form both soluble and insoluble BiP-lysozyme complexes. In vitro, PDI- and BiP-facilitated aggregation, as well as the competition of the two proteins for substrate, reproduces many of the features of the quality control system of the ER.
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PMID:Anti-chaperone behavior of BiP during the protein disulfide isomerase-catalyzed refolding of reduced denatured lysozyme. 792 93

The asialoglycoprotein (ASGP) receptor undergoes constitutive endocytosis in HepG2 cells, which is regulated by tyrosine kinase activity (Fallon, R. J., Danaher, M., Saylors, R. L., and Saxena, A. (1994) J. Biol. Chem. 269, 11011-11017). In this study we show that the receptor copurifies with a tyrosine kinase activity, as defined by tyrosine phosphorylation of an exogenous substrate (reduced carboxyamidomethylated and maleylated lysozyme). Analysis of cells transfected with one subunit of the ASGP receptor showed that signals in the cytoplasmic domain of the H1 subunit are sufficient for receptor kinase association. In addition, receptor kinase association is not dependent on the single cytoplasmic tyrosine at position 5. Analysis of the components of anti-ASGP receptor immunoprecipitates revealed the presence of a 127-kDa protein (p127), which becomes phosphorylated on tyrosine upon addition of gamma-[32P]ATP and which is capable of binding ATP.p127 was also demonstrated in anti-transferrin receptor immunoprecipitates but not in immunoprecipitates of a resident membrane protein, human HLA. In conclusion, these data demonstrate that the ASGP receptor, a protein that participates in constitutive, rapid endocytosis, is associated with a cellular tyrosine kinase.
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PMID:The asialoglycoprotein receptor is associated with a tyrosine kinase in HepG2 cells. 792 94

Escherichia coli cells were transformed with plasmids encoding 12 site-specific variants of T4 lysozyme, and pulse-chase protocols were used to measure the metabolic stability of each protein. The resulting half-lives ranged from 1 h to more than 50 h. Although the metabolic half-lives of T4 lysozymes correlated roughly with their thermal stabilities, three mutant enzymes were clear exceptions. A reasonably temperature-resistant variant, G156D, exhibited a half-life of 1 h. By contrast, two temperature-sensitive variants, T157I and I3G, were as metabolically stable as wild-type T4 lysozyme. Degradation of two short lived variants, L91P and G156P, required ATP both in vivo and in vitro. Degradation of variant and wild-type enzymes was unimpaired in cells lacking the Lon protease, Clp A or Clp P. However, degradation of L91P and G156D was inhibited in Clp B-cells. Decreased proteolysis of L91P was accompanied by its accumulation in inclusion bodies, indicating that Clp B prevents accumulation of aggregated protein either by preventing aggregation of misfolded polypeptides or solubilizing aggregates.
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PMID:On the relationship between the metabolic and thermodynamic stabilities of T4 lysozymes. Measurements in Escherichia coli. 796 92

We have measured the metabolic stabilities of wild-type and 17 temperature-sensitive mutants of T4 lysozyme in HeLa cells, in Xenopus egg extract, and in reticulocyte lysate. [35S]Methionine-labeled T4 lysozymes were expressed in Escherichia coli, purified, injected into HeLa cells, and their degradation rates were determined. Wild-type T4 lysozyme has a half-life of 4 h; the half-lives of 16 lysozyme variants ranged from 2 to 10 h. Surprisingly, the most temperature-sensitive enzyme in the set, R96H, was significantly more stable (half-life = 10 h). Different T4 lysozyme variants yield conflicting answers to the proposed relationship between thermal and metabolic stabilities. For mutations at Thr157 there is no correlation between melting temperature and half-life. By contrast, T4 lysozymes mutated at various positions show a definite correlation between the two parameters. Treatment of injected HeLa cells with the lysosomotropic agents chloroquine or ammonium chloride did not alter the stability of T4 lysozyme. However, the enzyme's half-life increased 10-fold in HeLa cells depleted of ATP. Although T4 lysozyme is degraded rapidly within HeLa cells, the molecule is stable in reticulocyte lysate and Xenopus egg extract. Presumably, there is a specific proteolytic event(s) in HeLa cells which is not manifest in the in vitro extracts.
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PMID:On the relationship between the metabolic and thermodynamic stabilities of T4 lysozymes. Measurements in eukaryotic cells. 796 93

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