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)

We have developed a method for electrotransfer of strongly basic proteins (lysozyme, pI 11; mucus proteinase inhibitor, pI greater than 10; bovine pancreas trypsin inhibitor; pI 10.5; human leukocyte elastase, pI greater than 9) from nondenaturing acid gels (pH 4.5) to nitrocellulose sheets. Buffers were those used in a discontinuous system for transfer from sodium dodecyl sulfate (SDS)-containing polyacrylamide gels with one modification in the cathode buffer which contained 0.1% SDS. This method was compared to electrotransfer performed in 0.7% acetic acid. The basic proteins studied, which were positively charged in the gel, formed with SDS negative complexes which migrated toward the anode and were efficiently transferred to the nitrocellulose. Moreover, their biological properties were preserved: inhibitory activity, enzyme activity, and antigenicity. This method is advantageous because it is simple, is sensitive, and can be applied to various biological fluids to detect inhibitors, enzymes, and other proteins which have a basic character, after electrophoretic separation under their native forms.
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PMID:Electrotransfer of basic proteins from nondenaturing polyacrylamide acid gels to nitrocellulose: detection of enzymatic and inhibitory activities and retention of protein antigenicity. 169 33

A proteinase with elastolytic activity was isolated from granules of rabbit bloodstream leukocytes, and purified to apparent homogeneity by a multi-step procedure consisting of ammonium sulfate precipitation, batch fractionation on DEAE-Sephadex A-50, and finally by preparative isoelectric focusing (IEF) on Sephadex G-75 Superfine. The molecule weight of the enzyme, as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE), was 28,500. This enzyme shows an isoelectric point at pH 9.0. The proteinase is active against natural elastins as well as toward Suc-(Ala)3-NA, Methoxy-Suc-(Ala)2-Pro-Val-NA, and (to a lesser extent) against Suc-(Ala)2-Pro-Leu-NA and Boc-Ala-ONp. The inhibition profile of the isolated enzyme indicates that rabbit granulocyte elastase belongs to the group of serine proteinases. Inhibition by some natural proteinase inhibitors is also observed. Unlike other mammalian elastases, it is insensitive to elastatinal.
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PMID:An elastolytic proteinase from rabbit leukocytes: purification and partial characterization. 189 94

We have modified the single cysteine residue of alpha 1-protease inhibitor (alpha 1-PI) with HgCl2, methylmethane thiosulfonate, oxidized glutathione (GSSG), and N-(1-anilinonaphthyl-4)maleimide (ANM). Whereas native alpha 1-PI combines rapidly and quasi-irreversibly with neutrophil elastase, the thiol-modified alpha 1-PI derivatives are dissociable reversible competitive inhibitors of the enzyme, with values of Ki in the range of 6-7 nM. Removal of the thiol modifications restores the rapid irreversible mode of inhibition. Once native alpha 1-PI has combined with neutrophil elastase, the enzyme-inhibitor complex retains a reactive thiol group, but the two proteins can no longer be dissociated by subsequent reaction with ANM, even after exposure to sodium dodecyl sulfate-polyacrylamide gel electrophoresis. From kinetic measurements of fluorescence, ANM-modified alpha 1-PI combines with neutrophil elastase via an apparent biomolecular process with a second order rate constant on the order of 10(5) M-1 S-1. We estimate a dissociation rate constant on the order of 10(-3) S-1. The emission of ANM-modified alpha 1-PI is increased in intensity and blue shifted from the maximum in ANM-modified cysteine, consistent with a predominantly nonpolar environment. Association with neutrophil elastase results in an additional blue shift with further increase in intensity, consistent with a further decrease in polarity of the environment of the cysteine. Modification with methylmethane thiosulfonate or GSSG results in a small decrease in quantum yield and a red shift in the tryptophan emission spectrum of the modified inhibitor, suggestive of increased polarity of the environment of at least 1 of the 2 tryptophan residues in alpha 1-PI. These changes are reversed by dithiothreitol and are consistent with a conformational change which transforms the inhibitory activity from a rapid, irreversible mode in native alpha 1-PI to a dissociable competitive mode in the mixed disulfide derivatives.
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PMID:Reversible inhibition of neutrophil elastase by thiol-modified alpha-1 protease inhibitor. 200 60

The heparin affinity of normal and two P1 variants of antithrombin-III (AT) was studied by gradient elution with NaCl in Tris buffer on heparin-Sepharose. At pH 7.4 normal AT eluted at [Na+] 0.78 mol/l and the variants both showed increased affinity with AT Pescara eluting at [Na+] 0.86 mol/l and AT Glasgow at [Na+] 0.92 mol/l. We have earlier proposed a model for heparin activation in which the native state of AT maintains a salt bridge involving the P1 Arg-393 residue. Binding of heparin induces a higher heparin affinity conformation in which the salt bridge is disrupted to reveal the reactive centre for inhibition of thrombin. The Glasgow and Pescara variants, lacking a reactive centre P1 basic residue, would be unable to form this salt bridge, and we suggested that the high affinity conformation which they adopt as their native state would resemble the heparin induced conformation. To examine this model, we measured the heparin induced fluorescence of two P1 variants and tested the susceptibility of their reactive loops to catalytic cleavage. Both variants had fluorescence spectra indistinguishable from normal AT. In the absence of heparin, neither variant was more susceptible than normal to catalytic cleavage by human neutrophil elastase. These findings suggest that the conformation of these P1 variants is different to that of fully heparinized normal AT.
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PMID:P1 variant antithrombins Glasgow (393 Arg to His) and Pescara (393 Arg to Pro) have increased heparin affinity and are resistant to catalytic cleavage by elastase. Implications for the heparin activation mechanism. 201 15

The potent serine protease, neutrophil elastase (NE), is stored in neutrophil azurophilic granules, where it is available to degrade phagocytosed material and can be released by the cell to assist in tissue migration and help clear tissue debris. While neutrophils carry NE, they cannot produce it; the NE gene is expressed only in bone marrow granulocyte precursor cells. Protection of normal tissues from the destructive capacity of NE is provided by alpha 1-antitrypsin (alpha 1 AT), a 52-Kd serine antiprotease produced by hepatocytes and mononuclear phagocytes. In the context of the broad destructive capacity of NE, we evaluated the concept that human neutrophils may be able to modulate the extracellular activity of NE by synthesizing and secreting alpha 1AT. Immunocytochemical analysis demonstrated that the neutrophil contains alpha 1AT. Northern analysis and in situ hybridization with alpha 1AT-specific probes demonstrated the presence of alpha 1AT messenger RNA transcripts within neutrophils. [35S]methionine-labeling of neutrophils followed by immunoprecipitation of the supernatant with an anti-alpha 1AT antibody and sodium dodecyl sulfate-acrylamide gel analysis demonstrated that neutrophils can synthesize alpha 1AT de novo and secrete the synthesized molecule. In the presence of major neutrophil degranulation, the antiprotease effect of neutrophil alpha 1AT is overwhelmed, allowing the NE to act unopposed in the extracellular microenvironment. However, in conditions where small amounts of NE are released by neutrophils, at least some of the secreted newly synthesized alpha 1AT was capable of complexing with NE. Thus, despite the fact that the neutrophil cannot synthesize NE, it can synthesize and secrete alpha 1AT, the inhibitor of NE, ie, the neutrophil is capable, to some extent, of modulating NE activity in the local milieu without the help of antiproteases produced by other cells.
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PMID:Human neutrophils express the alpha 1-antitrypsin gene and produce alpha 1-antitrypsin. 204 69

Four stable hybridoma cell lines producing monoclonal antibodies specific for neutrophil proteinase 4 (NP4) were established and one monoclonal antibody was chosen to produce an immunoaffinity-resin for the purification of NP4. In a precipitation assay system these antibodies bound NP4 in a dose-dependent manner, but did so neither with neutrophil elastase nor with cathepsin G. NP4 was purified and electrophoresis of the affinity-purified enzyme in sodium dodecyl sulfate polyacrylamide gels resulted in a single Mr = 30,000 polypeptide. The purified enzyme digested fibrin but not elastin and it cleaved Boc-Ala-ONp readily (Km = 0.47mM) at neutral pH, but had no effect on Suc-[Ala]3 Nan and N-Suc-[Ala]2-Pro-Phe-pNA. The proteolytic activity was inhibited by DFP, alpha 1 PI and alpha 2 M with a Ki of 10(-9)M for the NP4-alpha 1 PI complex. The NH2-terminal sequence and the amino-acid composition of NP4 were distinct from those of elastase and cathepsin G. Neutrophils contain large amounts of NP4 as judged by the comparable amounts of elastase- and NP4-alpha 1 PI complexes present in inflammatory exudates.
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PMID:Monoclonal antibodies specific for neutrophil proteinase 4. Production and use for isolation of the enzyme. 212 Nov 62

The processing of the neutral proteases cathepsin G and neutrophil elastase, normally synthesized in myeloid precursor cells and stored in azurophil granules, were investigated by biosynthetic labeling with 14C-leucine of the monoblastic cell line U-937. The proteases were precipitated with specific antibodies and the immunoprecipitates were analyzed by sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) followed by fluorography. The transfer to lysosomes of newly synthesized proteases was demonstrated in pulse-chase labeling experiments followed by centrifugation of cell homogenates in a Percoll gradient. The presence of a closely spaced polypeptide band-doublet at intermediate gradient density suggested cleavage of the specific aminoterminal pro dipeptide extension before storage in lysosomes. The molecular heterogeneity observed for cathepsin G and neutrophil elastase seemed to be due to modifications occurring after sorting into lysosomes, most likely because of C-terminal processing. Modifications of the secreted enzymes were not detectable by SDS-PAGE. In contrast to other lysosomal enzymes, no phosphorylation was demonstrated. Newly synthesized cathepsin G and neutrophil elastase rapidly became resistant to endoglycosidase H, indicating transport through the medial and trans cisternae of the Golgi complex and conversion to "complex" oligosaccharide side chains. This conversion was inhibited by an agent swainsonine, but translocation from the Golgi complex and secretion were unaffected. The processing described may play a role in activation of the proteases.
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PMID:Biosynthesis and processing of cathepsin G and neutrophil elastase in the leukemic myeloid cell line U-937. 212 53

To determine the susceptibility of laminin to proteolytic degradation by inflammatory cells, soluble laminin was incubated with supernatants from phorbol 12-myristate 13-acetate (PMA)-stimulated human neutrophils. The appearance of laminin cleavage fragments was then detected by sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE). Treatment of supernatants with diisopropylfluorophosphate (DFP), anti-human neutrophil elastase (HNE), and anti-human neutrophil cathepsin G (HNCG) IgGs effectively blocked the degradation of laminin. In contrast, treatment of supernatants with EDTA failed to inhibit laminin digestion, indicating that neutrophil metalloproteinases had little laminin-degrading activity. In additional experiments, laminin was incubated with purified HNE and HNCG. Both enzymes extensively cleaved laminin in a dose- and time-dependent manner yielding similar products, but HNE was generally more potent. Immunofluorescence microscopy of cryostat sections of mouse kidney treated with HNE or HNCG also showed widespread loss of laminin epitopes from basement membranes. The proteolytic degradation of laminin by neutrophil elastase and cathepsin G indicates an important role for these enzymes in basement membrane damage during inflammation.
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PMID:Degradation of basement membrane laminin by human neutrophil elastase and cathepsin G. 235 59

Much of the tissue damage associated with emphysema and other inflammatory diseases has been attributed to the proteolytic activity of neutrophil elastase, a major component of the azurophil granule. Recently, two additional azurophil granule proteins with NH2-terminal sequence homology to elastase were isolated (Gabay, J. E., Scott, R. W., Campanelli, D., Griffith, J., Wilde, C., Marra, M. N., Seeger, M., and Nathan, C. F. (1989) Proc. Natl. Acad. Sci. U.S.A. 86, 5610-5614) and designated azurophil granule protein 7 (AGP7) and azurocidin. Azurocidin and AGP7 represent significant protein components of the azurophil granule, together comprising approximately 15% of the acid-extractable protein as judged by reverse-phase high performance liquid chromatography analysis. AGP7 migrates on sodium dodecyl sulfate-polyacrylamide gel electrophoresis as four distinct glycoforms of molecular mass 28-34 kDa, whereas azurocidin exhibits three predominant bands with molecular mass of 28-30 kDa. Treatment of intact azurophil granules with [3H]diisopropyl fluorophosphate resulted in labeling of elastase, cathepsin G, and AGP7, whereas azurocidin was not labeled. Tryptic mapping of 3H-labeled AGP7 allowed us to identify and sequence the active-site polypeptide that has 70% identity to elastase over 20 residues. The active site peptide of azurocidin was also identified by sequence analysis of tryptic fragments and showed 65% identity to the active site of elastase. Surprisingly, the catalytic serine of azurocidin is replaced by glycine, explaining its inability to label with [3H]diisopropyl fluorophosphate. Thus, we have identified two azurophil proteins closely related to neutrophil elastase, one of which has apparently lost its proteolytic activity due to mutation of the catalytic serine.
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PMID:Characterization of two azurphil granule proteases with active-site homology to neutrophil elastase. 240 77

Pseudomonas aeruginosa elastase rapidly inactivates alpha 1-proteinase inhibitor by splitting its Pro-357-Met-358 peptide bond. The present study was aimed at testing whether this reaction takes place in the presence of leukocyte elastase. To this end was added alpha 1-proteinase inhibitor to a mixture of the two elastases, and we performed the following assays: (i) measurement of the residual leukocyte elastase activity, (ii) sodium dodecyl sulfate-polyacrylamide gel electrophoresis, and (iii) immunoassay of the leukocyte elastase-alpha 1-proteinase inhibitor complex. These experiments were done with various concentrations of the three proteins. All experiments gave the same result: leukocyte elastase was fully inhibited by alpha 1-proteinase inhibitor in the presence of P. aeruginosa elastase even when the bacterial enzyme was 10-fold more concentrated than the neutrophil enzyme. We also measured the initial rate of the P. aeruginosa elastase-catalyzed inactivation of alpha 1-proteinase inhibitor as a function of the inhibitor concentration. The kcat/Km value derived from this experiment was 9 x 10(4) M-1 s-1, a value much lower than the rate constant for the leukocyte elastase-inhibitor association (kass, 1.7 x 10(7) M-1 s-1). This rationalizes the above results. In conclusion, when alpha 1-proteinase inhibitor is faced with its target enzyme, leukocyte elastase, it will perform its physiologic antielastase function even if the bacterial elastase is present in excess.
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PMID:Pseudomonas aeruginosa elastase does not inactivate alpha 1-proteinase inhibitor in the presence of leukocyte elastase. 250 70


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