Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.4.21.37 (neutrophil elastase)
4,078 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The low molecular weight bronchial protease inhibitor isolated from purulent bronchial secretions of man was shown to be a potent inhibitor of the elastase from human granulocytes. At a molar ratio of 1:1, the inhibitor prevented elastase digestion of insoluble elastin and soluble elastin, and blocked the hydrolysis of t-BOC-L-alanine-p-nitrophenyl ester. The collagenolytic activity of granulocyte collagenase was not inhibited by the bronchial inhibitor. Antisera were raised in rabbits for the isolation of specific IgG fractions in order to localize and quantitate the inhibitor. 125I-labelled inhibitor was used to study enzyme interactions further by gel filtration. These studies demonstrated that the bronchial inhibitor formed firm complexes with granulocyte elastase but did not form complexes with granulocyte collagenase.
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PMID:Inhibition of elastase from granulocytes by the low molecular weight bronchial protease inhibitor. 18 83

Normal human bronchial secretion contains protease inhibitors from plasma and an acid-stable, low molecular weight inhibitor which strongly inactivates granulocyte elastase and chymotrypsin-like cationic proteins. The distribution of this bronchial protease inhibitor in tracheal mucosa was analyzed by an indirect immunoperoxidase method. Strong peroxidase staining was obtained in the columnar ciliated epithelium of the trachea and in the sero-mucus glands. The findings support a local mucosal production of the inhibitor. Maxillary sinus mucosa was also positively stained for the inhibitor.
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PMID:Localization of a low molecular weight protease inhibitor to tracheal and mixillary sinus mucosa. 32 83

Studies of both emphysema and adult respiratory distress syndrome (ARDS) support the premise that lung injury is due to unregulated host defense mechanisms. A major mediator of host defense and injury is the neutrophil, which is relatively incapable of regulating its own function. Accordingly, defects in regulatory mechanisms allow neutrophils to damage the lungs. Emphysema serves as a prime example of this link between host defense and injury. Hereditary emphysema is caused by a deficiency in alpha 1-antitrypsin (alpha 1-AT), a protease inhibitor. The decreased levels of this enzyme in affected individuals result in inadequate protection against neutrophil elastase and other proteolytic enzymes, leading to lung damage. Patients with acquired emphysema, associated with cigarette smoking, have normal levels of alpha 1-AT in their lungs. However, the alpha 1-AT in these patients has a reduced ability to associate with and inhibit the action of neutrophil elastase. Thus, both types of emphysema involve an alteration in the balance between proteases and antiproteases. The lung damage observed in patients with ARDS also appears to involve neutrophils, but in this case elastase may not be the culprit. In these patients, neutrophil elastase appears to be inactivated by high levels of alpha 1-AT, thus preventing excess protease action. It is hoped that a more complete understanding of the mechanisms involved in host defense and injury will enable the development of specific therapeutic interventions, such as the alpha 1-AT replacement therapy that is being used to treat patients with hereditary emphysema.
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PMID:Adverse effects of neutrophils on the lung. 132 Mar 28

The in vitro effects of the Pseudomonas aeruginosa-derived phenazine pigments pyocyanin and 1-hydroxyphenazine (1-hp) on neutrophil elastase release and myeloperoxidase-induced inactivation of alpha-1-protease inhibitor (alpha 1-PI) were investigated. 1-hp (6-25 microM), but not pyocyanin, caused a dose-dependent enhancement of elastase release by FMLP:cytochalasin B (CB)-activated human neutrophils. 1-hp (0.78-6.25 microM) also increased the oxidative inactivation of the elastase inhibitory capacity of alpha 1-PI exposed to FMLP:CB-activated neutrophils. Methionine, a scavenger of hypochlorous acid, completely protected alpha 1-PI from inactivation by stimulated neutrophils in the presence or absence of 1-hp. Similar protective effects were observed with sodium azide, an inhibitor of myeloperoxidase. P. aeruginosa-derived 1-hp may promote an elastase-antielastase imbalance in vivo by increasing the release of neutrophil elastase and by enhancing the oxidative inactivation of alpha 1-PI, thereby contributing to the development of tissue destruction in P. aeruginosa-infected patients.
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PMID:Enhanced release of elastase and oxidative inactivation of alpha-1-protease inhibitor by stimulated human neutrophils exposed to Pseudomonas aeruginosa pigment 1-hydroxyphenazine. 132 22

We wanted to demonstrate that the neutrophil elastase inhibitor eglin C reduces the loss of intravascular protein in endotoxin (LPS) shock and that effective concentrations are present in lymph. We used 45 anesthetized miniature pigs in a randomized, controlled trial. LPS 10 micrograms/kg/hr was given for 6 hr. Recombinant eglin C was given before LPS (250 nmol/kg) and continuously at 250 nmol/kg/hr (n = 18); septic controls received saline (n = 18); nine nonseptic controls were used. Eglin C significantly reduced the loss of intravascular protein (plasma volume times plasma protein concentration) from -0.79 g/kg in septic controls to 0.42 g/kg in eglin C-treated animals and reduced plasma concentration of neutrophil elastase, bound to the leukocyte neutral protease inhibitor (LNPI), but systemic hypotension was unchanged. Six additional pigs were anesthetized, prepared with a thoracic lymph fistula, and received eglin C at 475 nmol/kg/hr; three received saline; three received LPS. Eglin C concentrations in lymph were comparable to those in plasma. We conclude that eglin C reduced the loss of intravascular protein during LPS shock and attained effective concentrations in lymph.
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PMID:Effect of the elastase inhibitor eglin C in porcine endotoxin shock. 135 97

We report display of the complete protease inhibitor (Kunitz) domain, BPTI, on the surface of bacteriophage M13 as a fusion to the gene III product. Phage that display BPTI bind specifically to anti-BPTI antibodies, trypsin and anhydrotrypsin. A point mutation of BPTI [Lys15-->Leu(K15L)] alters the binding specificity of fusion phage such that a human neutrophil elastase-binding phenotype is conferred while a trypsin-binding phenotype is eliminated. Phage were eluted from an immobilized protease with step gradients of decreasing pH. Phage that display Kunitz domains having higher affinity for the immobilized protease exhibit characteristic pH elution phenotypes, indicating that bound display phage can be selectively recovered from an affinity matrix. Utilization of this technology should enable the selection of remodeled protease inhibitors exhibiting novel binding specificities.
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PMID:Protease inhibitor display M13 phage: selection of high-affinity neutrophil elastase inhibitors. 138 68

The major endogenous inhibitor of neutrophil elastase in the plasma, alpha 1-protease inhibitor (alpha 1-PI), has a single cysteine residue which has been shown to form mixed disulfides with a number of thiols in vitro. Under normal physiological conditions, the plasma concentrations of reduced and oxidized thiols are such that a major fraction of alpha 1-PI in the circulation in vivo is in the form of mixed disulfides [Laurell, C.-B. (1979) in The Chemistry and Physiology of Human Plasma Proteins (Bing, D. H., Ed.) pp 329-341, Pergamon, New York]. We show here that the mixed disulfide between glutathione or cysteine and alpha 1-PI (alpha 1-PI-SSG or alpha 1-PI-SScys) has an intrinsic fluorescence which distinguishes it from the reduced form of alpha 1-PI. By employing the fluorescence difference, we have measured the ratio of alpha 1-PI-SH to mixed disulfide alpha 1-PI in redox buffers of different ratios of reduced to oxidized glutathione (GSH to GSSG) or reduced to oxidized cysteine (cys to cysSScys) and have calculated an equilibrium constant and redox potential of 0.74 +/- 0.08 and 8 +/- 2 mV, respectively, for the alpha 1-PI-SH/alpha 1-PI-SSG couple and of 0.32 +/- 0.02 and 29 +/- 2 mV, respectively, for the alpha 1-PI-SH/alpha 1-PI-SScys couple. We are unable to detect any change in Trp fluorescence in the complex of alpha 1-PI and elastase when the preformed complex is added to the same GSH/GSSG or cys/cysSScys redox buffers.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Role of disulfide exchange in alpha 1-protease inhibitor. 142 Jan 73

To examine the mechanism of tissue damage which causes bronchiolectasis in diffuse panbronchiolitis (DPB), the cellular components, elastase and its main inhibitor, alpha 1-protease inhibitor (alpha 1-PI) were measured in bronchoalveolar and bronchial lavage fluid (BALF and BLF) from 14 DPB patients. A predominant increase in the neutrophil count was observed in DPB. Elastase activity in BALF and BLF was about 1,000-fold higher in the DPB group than in the control group. An inhibitor study and a positive correlation between elastase activity and the neutrophil count in both lavage fluids from the DPB group indicated that the activity was mainly that of neutrophil elastase. Western blot analysis of alpha 1-PI showed that most of the alpha 1-PI in the lavage fluids from DPB group was degraded. These results indicated that neutrophil infiltration increases the level of elastase in the DPB lesions; this increase seems to be closely related to tissue damage.
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PMID:Cell profile and elastase activity in diffuse panbronchiolitis investigated by bronchoalveolar and bronchial lavage. 150 21

Exposure to silica can induce fibrosis and/or emphysema. Various factors such as proteases, other hydrolases and oxidants may be involved in the destruction of lung parenchyma. On the other hand, antiproteases play an important role in the protection of lung parenchyma against the action of proteases. We have developed an animal model of silicosis in monkey Macacus cynomolgus and followed these factors by bronchoalveolar lavage (BAL). We have studied glycosidases activities, elastase-like activity, immunoreactive alpha 1-protease inhibitor (alpha 1PI), neutrophil elastase inhibitory capacity (NEIC) and myeloperoxidase. Bronchoalveolar cells in serial BAL were also studied. Six monkeys were exposed to quartz aerosols (100 mg.m-3) for 18 wks. They were followed until they developed X-ray changes, which occurred between 21-64 wks after the end of the dust exposure. Cellular "silicotic nodules" were observed in lung biopsies. A control animal underwent serial BAL. Changes were seen in the differential cell count. The release of superoxide anion by bronchoalveolar cells obtained during the experiment was increased. Separation on a gradient of Percoll showed the presence of young macrophages, which exhibited enhanced release of superoxide anion as compared to the totality of bronchoalveolar cells. The biochemical analysis of BAL fluids obtained during and after the period of dust exposure showed an increase in glycosidases, alpha 1PI and NEIC. Some free elastase-like activity was simultaneously detected in BAL fluids from exposed animals but not from the control. This elastase-like activity was very low compared to NEIC. The increase in enzymatic and antiprotease activities occurred at different points in time for each animal, suggesting large differences in individual responses to dust, but occurred before the chest X-ray abnormalities.
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PMID:An attempt to evaluate lung aggression in monkey silicosis: hydrolases, peroxidase and antiproteases activities in serial bronchoalveolar lavages. 164 17

Pregnancy-associated plasma protein-A (PAPP-A), like alpha 2-macroglobulin (alpha 2M), is a large protein with homotetrameric molecular conformation. Each monomer has Mr 205 kDa. Total carbohydrate content of PAPP-A (19.4%) exceeded that of alpha 2M (8.6%). In addition to glucose (9.4%), fucose (3.1%), mannose (2.3%) and galactose (0.8%), PAPP-A contained glucuronic acid (3.8%). The amino acid composition of PAPP-A differed most significantly from alpha 2M, in the content of glutamate, glycine and lysine. Although the peptide core of both proteins were of similar size, the difference in size, of native molecules was due to the carbohydrate moiety. Whereas alpha 2M monomer was autolytically cleaved into two smaller non-identical subunits (Mr 128 and 65 kDa), no such breakdown products were observed with PAPP-A. Unlike alpha 2M, PAPP-A is not a broad spectrum protease inhibitor. Both proteins inhibited human granulocyte elastase (HGE) in a dose dependent relationship, with PAPP-A (Ki 0.2 x 10(-6) M) being a more potent inhibitor than alpha 2M (Ki 1.02 x 10(-6) M). Since PAPP-A lacked internal thiolester groups, the mechanism of HGE inhibition was unlikely to be entrapment, as defined for alpha 2M. Inhibition kinetics of HGE for PAPP-A (noncompetitive inhibitor) and alpha 2M (uncompetitive inhibitor) were distinct. Thus, these findings do not support the tenet of a common ancestral protein for PAPP-A and alpha 2M.
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PMID:Characterization of pregnancy-associated plasma protein-A: comparison with alpha 2-macroglobulin. 169 71


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