Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.25.1 (proteasome)
 28,817 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The sequence of the amino-terminal 349 residues of rabbit muscle glycogen phosphorylase (EC 2.4.1.1) has been determined. Limited proteolysis of native phosphorylase b (841 residues, subunit molecular weight 97 412) by subtilisin BPN', Streptomyces alkaline protease, or elastase yielded two large segments (light and heavy). The light segment isolated from the subtilisin digest was cleaved at methionyl bonds with cyanogen bromide to yield eight major fragments and two minor overlapping fragments. The alignment of the major fragments was obtained by analysis of the two minor fragments, of five tryptic peptides containing methionine and of one large fragment generated by cleavage of an aspartylproline bond. Analysis of two cyanogen bromide fragments (CB14 and CB17) isolated from the intact molecule identified the sites susceptible to limited proteolysis and the overlap between the light and the heavy segments. Serine-14 and tyrosine-155 were identified as the residues involved in the covalent and allosteric controls of the enzyme, respectively. Residues 108 and 142 were identified as the cysteine residues reported to be involved in the aggregation of subunits.
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PMID:Sequence of the amino-terminal 349 residues of rabbit muscle glycogen phosphorylase including the sites of covalent and allosteric control. 72 24

Purified Pseudomonas aeruginosa elastase cleaved a 65 kDa gelatinase [inactive proenzyme form of matrix metalloproteinase (MMP-2)] from human corneal fibroblasts into a biologically active fragment with an approximate molecular mass of 58 kDa. However, purified pseudomonal alkaline protease did not cleave MMP-2 appreciably. Since activated MMP-2 is known to degrade native type IV, V and VII collagens, all components of the corneal basement membrane or stroma, our results suggest a new role for pseudomonal elastase in the pathogenesis of corneal infection, inflammation and ulceration.
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PMID:Proteolytic activation of corneal matrix metalloproteinase by Pseudomonas aeruginosa elastase. 148 40

The role of elastase and alkaline protease in the pathogenesis of fatal infections caused by Pseudomonas aeruginosa was determined in mice treated with calcium chloride. Mortality increased significantly when solutions containing elastase were injected together with non-lethal inocula of strain PA 103, which does not produce proteolytic enzyme. In contrast, solutions containing alkaline protease did not increase mortality. In mice injected intramuscularly with strain PA 103 and calcium chloride, the organisms grew rapidly in the injected muscle but not in the liver. However, when elastase was injected together with strain PA 103 and calcium chloride, viable bacteria were also found in the liver. Moreover, the survival rate of mice challenged with elastase-producing strain 5 and calcium chloride was enhanced, and colonization of the liver prevented, by immunization with elastase toxoid. These results suggest that elastase contributes to the invasiveness of the organism.
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PMID:Role of elastase as a virulence factor in experimental Pseudomonas aeruginosa infection in mice. 161 34

In vivo most extracellular iron is bound to transferrin or lactoferrin in such a way as to be unable to catalyze the formation of hydroxyl radical from superoxide (.O2-) and hydrogen peroxide (H2O2). At sites of Pseudomonas aeruginosa infection bacterial and neutrophil products could possibly modify transferrin and/or lactoferrin forming catalytic iron complexes. To examine this possibility, diferrictransferrin and diferriclactoferrin which had been incubated with pseudomonas elastase, pseudomonas alkaline protease, human neutrophil elastase, trypsin, or the myeloperoxidase product HOCl were added to a hypoxanthine/xanthine oxidase .O2-/H2O2 generating system. Hydroxyl radical formation was only detected with pseudomonas elastase treated diferrictransferrin and, to a much lesser extent, diferriclactoferrin. This effect was enhanced by the combination of pseudomonas elastase with other proteases, most prominently neutrophil elastase. Addition of pseudomonas elastase-treated diferrictransferrin to stimulated neutrophils also resulted in hydroxyl radical generation. Incubation of pseudomonas elastase with transferrin which had been selectively iron loaded at either the NH2- or COOH-terminal binding site yielded iron chelates with similar efficacy for hydroxyl radical catalysis. Pseudomonas elastase and HOCl treatment also decreased the ability of apotransferrin to inhibit hydroxyl radical formation by a Fe-NTA supplemented hypoxanthine/xanthine oxidase system. However, apotransferrin could be protected from the effects of HOCl if bicarbonate anion was present during the incubation. Apolactoferrin inhibition of hydroxyl radical generation was unaffected by any of the four proteases or HOCl. Alteration of transferrin by enzymes and oxidants present at sites of pseudomonas and other bacterial infections may increase the potential for local hydroxyl radical generation thereby contributing to tissue injury.
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PMID:Pseudomonas and neutrophil products modify transferrin and lactoferrin to create conditions that favor hydroxyl radical formation. 165 25

The present study was undertaken to examine and compare the direct effect of two Pseudomonas enzymes, elastase and alkaline protease, on the serum hemolytic complement as a whole, and on the two recognition molecules of complement, C1q and C3 in particular. The results of our study show that incubation of serum with 0-50 micrograms/ml elastase or protease (60 min, 37 degrees C) resulted in a dose-dependent depletion of hemolytic complement with the protease being 3-4 times more efficient than elastase. Incubation of highly purified C3 (20 hr, 37 degrees C) with protease (2% w/w) resulted in the conversion of the 190-kDa molecule to a 120-kDa fragment. When analyzed by SDS-PAGE under reducing conditions, the 120-kDa piece yielded three distinct bands: an intact 75-kDa beta-chain and two alpha-chain pieces of approximately 41- and 26-kDa. NH2-terminal end sequence analysis localized the 26-kDa fragment within the cysteine-rich 41-kDa, COOH-terminal piece. This in turn suggests that the 70-kDa fragment which is not accounted for on SDS-PAGE is derived from the NH2-terminal end of the alpha-chain molecule which is completely degraded into small fragments. While the degradation pattern obtained with elastase is similar to that of protease, the latter enzyme was found to be more efficient. Exposure of C1q (0-5 hr, 37 degrees C) to protease or elastase on the other hand appears to reveal preferential sensitivity of the 28-kDa A-chain and 24-kDa C-chain, of the C1q molecule, with the protease being more potent than the elastase. Since both C1q and physiologic fragments of C3 (C3b, iC3b, and C3dg) are important opsonins of varying efficiencies, degradation of these molecules by Pseudomonas enzymes may, in part, facilitate the survival and proliferation of the organism in plasma. Furthermore, degradation of the key recognition molecules of complement, C1q and C3, would enhance the virulence of this organism by aborting complement-mediated bacterial killing. In addition the results imply that during Pseudomonas bacteremia, PaAP may be a much more destructive enzyme than PaE with regards to C3 and C1q but combined, the synergistic effect may overwhelm not only the proteins of the complement system, but other proteins of the humoral immune defense system as well.
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PMID:Effect of Pseudomonas aeruginosa elastase and alkaline protease on serum complement and isolated components C1q and C3. 173 Jan 52

We have isolated and characterized four toxin A excretion-deficient mutants of Pseudomonas aeruginosa PAO1. Similar to previously described mutants (B. Wretlind and O. R. Pavlovskis, J. Bacteriol. 158:801-808, 1984), the mutants appear to have a pleiotropic defect in the excretion of several extracellular products, including toxin A, elastase, alkaline phosphatase, and phospholipase C. However, the mutants are not defective in the excretion of either alkaline protease or exoenzyme S. We also examined the localization and processing of toxin A in these mutants by using pulse-labeling experiments. Mature toxin A was found to be localized to the membranes only. Our results suggest that toxin A is localized to the outer membrane but is not exposed to the extracellular surfaces of the outer membranes. The results also suggest that toxin A obtained from the excretion-deficient mutants has intact disulfide bonds.
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PMID:Isolation and characterization of toxin A excretion-deficient mutants of Pseudomonas aeruginosa PAO1. 173 Apr 83

Pseudomonas aeruginosa, an extracellular opportunistic pathogen, utilizes two major mechanisms to evade the host defence system. One of these mechanisms is the production of a large number of extracellular products, such as proteases, toxins, and lipases. The two proteases, alkaline protease and elastase, inhibit the function of the cells of the immune system (phagocytes, NK cells, T cells), inactivate several cytokines (IL-1, IL-2, IFN-r, TNF), cleave immunoglobulins and inactivate complement. Inhibition of the local immune response by bacterial proteases provides an environment for the colonization and establishment of chronic infection. The other mechanism by which P. aeruginosa evades the host defence system is the biofilm mode of growth of the bacteria in chronic infections. The biofilm-grown bacteria induce a low phagocyte response, and provide a barrier for the bacteria against antibodies, complement, and the cells of the immune system. Protection from the host defence system combined with increased antibiotic resistance of the bacteria in the biofilm are the major reasons for the persistence of P. aeruginosa in chronic infections.
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PMID:Mechanisms involved in the evasion of the host defence by Pseudomonas aeruginosa. 175 6

We studied the inhibitory effects of chicken egg-white ovomacroglobulin (ovoM) on keratitis induced by 56,000-Da protease (56 KP) of Serratia marcescens and by elastase (PE) and alkaline protease (PAP) of Pseudomonas aeruginosa. The effects of ovoM on the serratial and pseudomonal keratitis in rabbits were also elucidated. In one model, four drops of 56 KP, PE, or PAP (1 mg/ml) were applied to wounded corneas of eight eyes. Thereafter, 80 microliters ovoM (10 mg/ml) was dropped into four eyes and 0.01 M phosphate-buffed 0.15 M saline (pH 7.4) into the other eyes as a control. The other in vivo test system involved intrastromal injection of S. marcescens or P. aeruginosa, by which each sample (10(5)-10(7) colony-forming units) mixed with ovoM was injected into one cornea and the other cornea received organisms without ovoM. OvoM completely inhibited the activity of these bacterial proteases in vitro and reduced corneal destruction in experimental keratitis in rabbits. In addition, greatly accelerated wound healing was observed.
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PMID:Inhibitory effects of ovomacroglobulin on bacterial keratitis in rabbits. 186 68

Previous studies in our laboratory have indicated that naturally resistant, inbred DBA/2J mice mount a greater serum antibody response to Pseudomonas aeruginosa 19660 than susceptible C57BL/6J mice. However, the specificity of the antibody produced was not known. The present study examines the specificity and kinetics of the humoral response of these mouse strains to potential virulence factors produced by the organism during both a primary and a secondary corneal infection administered 4 weeks after the primary infection. Serum antibody levels specific for lipopolysaccharide (LPS), exotoxin A, phospholipase C (PLC), alkaline protease, elastase, and flagella were measured by enzyme-linked immunosorbent assay. Little or no antibody to either alkaline protease or elastase was detected during either primary or secondary infection. Immunoglobulin G (IgG) antibodies specific to exotoxin A, PLC, and flagella were detected 2 weeks after primary infection, and a rapid response to these antigens was measured 1 week after secondary infection. During primary infection, detectable LPS-specific antibody was only IgM, while IgG appeared only after secondary infection. The kinetics of the humoral response in susceptible C57BL/6J mice were similar to those in resistant DBA/2J mice, although the magnitude of the response varied according to the antigen tested. These results indicate that LPS, exotoxin A, PLC, and flagella are present or produced in amounts that are immunogenic during corneal infection by P. aeruginosa 19660 in the mouse strains tested.
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PMID:Serum antibody response to Pseudomonas aeruginosa antigens during corneal infection. 190 70

We have investigated the effect of elastase and alkaline protease from Pseudomonas aeruginosa on airway secretion into the trachea of anesthetized cats and from human bronchial mucosa in vitro. Secretory macromolecules were radiolabeled biosynthetically with two precursors in the cat, [3H]glucose and [35S]sulfate, and with [35S]-sulfate only in human tissue. Both enzymes (2.6 x 10(-9) to 1.3 x 10(-6)M elastase and 8 x 10(-9) to 2.4 x 10(-6)M alkaline protease) released radiolabeled macromolecules in a concentration-dependent manner from the two preparations. Purified elastase, 1.3 x 10(-6)M, released radiolabeled macromolecules (delta 3H = +397 +/- 72%, delta 35S 225 +/- 40% over control, P less than 0.001) and periodic acid-Schiff- (PAS) reactive glycoconjugates (delta PAS = +4.1 +/- 0.96 micrograms/min or +102 +/- 20%; P less than 0.01) from cat trachea, as did alkaline protease, 2.4 x 10(-6)M (delta 3H = +356 +/- 57%, delta 35S = +176 +/- 25%, delta PAS = +7.5 +/- 1.3 micrograms/min or 194 +/- 36%, P less than 0.001). Increases in 3H exceeded those of 35S, suggesting surface epithelium as the main source of secretion. Inhibition of enzyme activity abolished secretory effects. Both enzymes also stimulated secretion from human bronchus (e.g., with elastase, 1.3 x 10(-6)M: delta 35S = +331 +/- 67%, delta PAS = +4.3 +/- 0.92 micrograms/min or +131 +/- 24%, P less than 0.001; with alkaline protease, 2.4 x 10(-6)M: delta 35S = +220 +/- 67%, delta PAS = +12.7 +/- 3.2 micrograms/min or +575 +/- 245%, P less than 0.001).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Stimulation of secretion into human and feline airways by Pseudomonas aeruginosa proteases. 190 6


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