EC:3.4.21.37 - FACTA Search

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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 conductimetric method was applied to the measurement of human leukocyte elastase activity, using insoluble elastin as a substrate. From conductance changes, initial rates of elastolysis were derived. A linear relationship of enzyme activity with enzyme concentration was demonstrated up to 400nM of enzyme, for three different substrates. In this concentration range, inhibition of elastolysis by eglin c was studied for different concentrations of eglin c. A 50% inhibitory concentrations of 0.13-0.15 microM of eglin c was derived from our results, corresponding to an inhibitor/enzyme ratio of about 0.5, indicating a strong inhibition, as previously demonstrated by authors using synthetic substrates.
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PMID:Conductimetry: a new tool for studying inhibition of elastolysis. 320 74

Human neutrophils contain large amounts of a neutral serine protease, human neutrophil elastase (HNE), which has been implicated as a mediator of acute and chronic lung injury. We found that this enzyme is effectively inhibited, at physiological ionic strength, by several synthetic non-base-paired polyribonucleotides. Among the most active of these is polyguanylic acid (poly G). Inhibitory activity is greatest with high-molecular-weight poly G fractions, but poly G fractions even as low as 60K Mr (app) are effective. Both amidolysis of synthetic elastase substrates, such as succinyl-ala-ala-ala-p-nitroanilide, and proteolysis of elastin are blocked. Poly G inhibits elastin proteolysis even when subsequently added to mixtures of elastin and HNE that have first been preincubated together for 10 min. Under these conditions, polyribosylribitol phosphate, a polyanion derived from Haemophilus influenzae capsular polysaccharide, is not inhibitory. Complex formation between HNE and poly G is dependent on ionic rather than covalent interactions, since it is blocked by 0.6 M NaCl but not by inactivation of the enzyme's catalytic-site serine residue with diisopropylfluorophosphate. However, nonspecific ionic interactions alone cannot explain complex formation, since pancreatic elastase and cathepsin G, an even more basic serine protease from human neutrophils, do not form complexes with poly G, even at low ionic strength. Moreover, in the presence of the amphiphiles taurocholic acid and glycocholic acid, HNE is much less effectively blocked by poly G. Peptide chloromethyl ketone-inactivate HNE (which has its extended substrate-binding pocket occupied by the peptidyl inactivator) also fails to form complexes with poly G. These results indicate that HNE may utilize both hydrophobic and ionic binding sites to couple with poly G, and suggest that these sites may be close to or within the extended substrate-binding pocket of the enzyme.
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PMID:Inhibition of human neutrophil elastase by polyguanylic acid and other synthetic RNA homopolymers. 325 33

The amyloid P-component (AP), a ubiquitous component of amyloid fibrils, is also a plasma protein and a connective tissue constituent. Its proximity to elastin, in particular, suggested that AP might serve to protect elastic tissue from hydrolytic enzymes. The inhibition of pancreatic elastase by AP has been reported. In the present study, the effects of AP on human neutrophil elastase and Pseudomonas elastase were investigated, and AP was shown to interfere with the cleavage of soluble elastin. As indicated by Michaelis-Menten analysis, AP is acting as a noncompetitive inhibitor. C-reactive protein, which is structurally similar to AP, had no effect on either elastase. AP was also found to inhibit the degradation of secondary amyloid fibrils by neutrophil elastase when these structures were first partially purified and then reexposed to AP. AP's ability to inhibit elastase was compared with alpha-1 antitrypsin in the presence and absence of oxidizing agents. These substances, which are released by inflammatory cells, are known to abrogate alpha-1 antitrypsin's anti-protease capacity. This contributes to elevated levels of free proteases in the circulation and extravascular spaces during severe inflammation. AP is not susceptible to oxidation and remains a functional inhibitor under these conditions. The potential role of AP as an elastase inhibitor is discussed.
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PMID:Inhibition of human neutrophil and Pseudomonas elastases by the amyloid P-component: a constituent of elastic fibers and amyloid deposits. 326 8

Based on available knowledge, this study shows that alpha-1-proteinase inhibitor (alpha 1-PI) plays an important role in protecting lung elastin from elastolytic proteinases, particularly human neutrophil elastase (HNE). Studies previous to this one showed that alpha 1-PI was very susceptible to inactivation by oxidants. We sought to use this oxidant sensitivity as an in vivo marker for ozone (O3) and nitrogen dioxide (NO2) exposure. The mechanism of alpha 1-PI inactivation by O3 and NO2 was examined to provide insight concerning the pathogenesis of oxidant-mediated lung damage. Attention also was focused on the bronchial leukocyte proteinase inhibitor (BLPI), which inhibits HNE in the bronchial secretions. Careful examination of blood plasma samples from individuals exposed to 0.5 ppm O3 for four hours on two consecutive days failed to detect any inactivation of alpha 1-PI. This result showed that blood alpha 1-PI was not a satisfactory marker for O3 exposure, but, more importantly, demonstrated that inhaling O3 for short periods does not grossly inactivate this important protein. Studies on BLPI showed that it is a significant inhibitor of HNE and probably plays a more important role in protecting the lung than previously thought. BLPI, like alpha 1-PI, was found to be inactivated by oxidants, including O3 and NO2. The mechanism of O3 inactivation of leukocyte proteinase inhibitors was studied using alpha 1-PI, alpha-1-antichymotrypsin (alpha 1-Achy), BLPI, and Eglin C. While all these inhibitors differed in structure, the concentrations of O3 required for inactivation were essentially the same, except for alpha 1-Achy, which only lost half of its inhibitory activity. It would seem from these results that O3 can damage proteins via the oxidation of any of the following: tryptophan (Trp), methionine (Met), tyrosine (Tyr), or histidine (His) residues. Interestingly, Eglin C, which does not have oxidizable amino acids in its inhibitory active site, was inactivated by the same amount of O3 as BLPI, BLPI was easily inactivated by a methionine-specific oxidant, suggesting an important role for methionine in this inhibitor. In vitro exposure of alpha 1-PI and BLPI to 800 moles of NO2 per mole of inhibitor resulted in 35% and 50% losses of HNE inhibitory activity, respectively. Tryptophan was destroyed by NO2 and studies are in progress to examine effects on other amino acids.
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PMID:Effects of ozone and nitrogen dioxide on human lung proteinase inhibitors. 326 87

Leukocyte elastase has been implicated in the etiology of pulmonary emphysema. Recently, two genetic models of emphysema have been described, in mouse, which may enhance our understanding of the pathogenesis of emphysema. We therefore sought to purify mouse leukocyte elastase in order to characterize its biochemical properties. Leukocyte enzyme has been purified by a two-step procedure involving salt extraction of granular fraction, followed by preparative isoelectric focusing on Sephadex G-75 Superfine. The enzyme hydrolyses elastin and synthetic substrates for elastase, even if to a different extent. Inhibition studies indicates that the enzyme is a serine proteinase. Mouse elastase has a single isoelectric point of 8.65 and it behaves on sodium dodecyl sulphate polyacrylamide gel electrophoresis as a major band (molecular weight 29,000) and two minor bands (molecular weight 27,000 and 25,800, respectively.
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PMID:Isolation and partial characterization of a proteinase with elastolytic activity from mouse blood leukocytes. 335 74

To test the role of elastase in the pathogenesis of emphysema human neutrophil elastase (HNE) was localised by electron microscopy using an immunogold staining technique. Specific localisation of HNE to elastic tissue in emphysema did not occur, but non-specific binding of immunoglobulin G (IgG) to elastic tissue in emphysematous and normal lung tissue, which was completely blocked by the non-immune serum that was homologous to the gold labelled second antibody, was found. HNE was also present, however, in the granules of neutrophils in the same sections. Non-specific labelling associated with elastin was probably due to binding of IgG to the high numbers of hydrophobic and charged regions known to be present in this molecule, and it is concluded that our findings do not support the existence of high concentrations of elastase in association with elastin in emphysematous lung tissue.
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PMID:Is neutrophil elastase associated with elastic tissue in emphysema? 292 38

Staphylococcus aureus is known to produce three very active extracellular proteinases. One of these enzymes, a cysteine proteinase, after purification to homogeneity was found to degrade insoluble bovine lung elastin at a rate comparable to human neutrophil elastase. This enzyme had no detectable activity against a range of synthetic substrates normally utilized by elastase, chymotrypsin, or trypsin-like proteinases. However, it did hydrolyze the synthetic substrate carbobenzoxy-phenylalanyl-leucyl-glutamyl-p-nitroanilide (Km = 0.5 mM, kcat = 0.16 s-1). The proteolytic activity of the cysteine proteinase was rapidly and efficiently inhibited by alpha 2-macroglobulin and also by the cysteine-specific inhibitor rat T-kininogen (Ki = 5.2 X 10(-7) M). Human kininogens, however, did not inhibit. Human plasma apparently contains other inhibitors of this enzyme, since plasma depleted of alpha 2-macroglobulin retained significant inhibitory capacity. The elastolytic activity of this S. aureus proteinase and its lack of control by human kininogens or cystatin C may explain some of the connective tissue destruction seen in bacterial infections due to this and related organisms such as may occur in septicemia, septic arthritis, and otitis.
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PMID:Degradation of elastin by a cysteine proteinase from Staphylococcus aureus. 342 37

Rate of elastolysis by pancreatic and leukocyte elastases of normal and copper deficient porcine aortic elastins were measured using a conductimetric method. Kinetics obey to Michaelis-Menten model for both substrates and enzymes. KM and Vmax values derived from Lineweaver-Burk plots indicate that, if a near uniformity exists in KM, differences were observed in catalytic rates, kcat increasing approximately 40% for copper deficient elastin elastolysis by leukocyte elastase. This higher susceptibility to proteolysis may have implications for understanding turnover of elastin in tissues.
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PMID:Elastolysis of normal and partially cross-linked elastin. 343 23

The human protease inhibitor genes alpha 1 antitrypsin (alpha 1-PI) and alpha 1-antichymotrypsin (alpha 1-ACT) are acute-phase proteins which are induced in response to inflammation. These inhibitors function to limit the activity of serine proteases in vivo. alpha 1-PI acts as an inhibitor of neutrophil elastase to protect the elastin fibers of the lung. Genetic deficiencies of alpha 1-PI result in development of chronic pulmonary emphysema. The physiologic role of alpha 1-ACT has not been clearly defined, but it also appears to function in the maintenance of protease-protease inhibitor equilibrium in the lung. Nucleic acid and protein sequence homologies detected between alpha 1-PI and alpha 1-ACT suggested an evolutionary relationship. Gene mapping experiments were performed to determine if these protease inhibitor genes reside at the same chromosomal locus in man. In situ hybridization data demonstrate that both alpha 1-PI and alpha 1-ACT map to the same region, q31-q32.3, on chromosome 14.
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PMID:Regional location of alpha 1-antichymotrypsin and alpha 1-antitrypsin genes on human chromosome 14. 348 24

The lysosomal cysteine proteinases cathepsin L and cathepsin B were examined for their effect on the neutrophil elastase inhibitory activity of human alpha 1-proteinase inhibitor (alpha 1PI). Human cathepsin L catalytically inactivated human alpha 1PI by cleavage of the bonds Glu354-Ala355 and Met358-Ser359 (the serine proteinase inhibitory site). Cathepsin B did not inactivate alpha 1PI, even when equimolar amounts of enzyme were employed. Cathepsin L is the first human proteinase shown to catalytically inactivate alpha 1PI. These findings, in conjunction with other reports, suggest that alpha 1PI contains a proteolytically sensitive region encompassing residues 350-358. Taken together with the discovery of the elastinolytic activity of cathepsin L (Mason, R. W., Johnson, D. A., Barrett, A. J., and Chapman, H. A. (1986) Biochem. J. 233, 925-927), the present findings emphasize the possible importance of cathepsin L in the pathological proteolysis of elastin and diminish the role that can be attributed to cathepsin B in such processes.
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PMID:Cathepsin L inactivates alpha 1-proteinase inhibitor by cleavage in the reactive site region. 349 Apr 78

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