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 effects of bolus intravenous injections of various serine proteases (thrombin, trypsin, plasmin, neutrophil elastase and chymotrypsin) on arterial blood pressure were evaluated in anesthetized, normotensive rats. The activity to intravenous trypsin was also studied in anesthetized, normotensive dogs. In the rat, both thrombin (0.33-10 nmol/kg) and trypsin (4.2-420 nmol/kg) produced pronounced vasodepressor responses. The activity on blood pressure was observed immediately following injection of either protease, and both the magnitude and duration of the responses were dose dependent. Plasmin (37-350 nmol/kg) and neutrophil elastase (91-910 nmol/kg) also induced dose-dependent hypotension but at much higher dose levels. In addition, the magnitude of the blood pressure responses after plasmin and neutrophil elastase was less than those produced by thrombin and trypsin. Chymotrypsin, on the other hand, had a more diverse blood pressure profile. The protease induced a modest decrease in pressure at doses of 40 and 120 nmol/kg, a pressor response after 400 and 1,200 nmol/kg and at the highest dose tested (4,000 nmol/kg) profound hypotension. In the dog, trypsin produced a dose-dependent vasodepressor response similar to that observed in the rat. The doses of proteases producing alterations of blood pressure in the rat correlated inversely with the ability of rat serum or plasma to completely inhibit those proteases. The pharmacology of the trypsin or thrombin blood pressure response suggests the requirement of specific active enzymes to mediate the vasodepression induced by both proteases.
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PMID:Acute blood pressure effects of selected serine proteases in normotensive rats and dogs. 177 Nov 72

The plasma clearance of neutrophil elastase, plasmin, and their complexes with human inter-alpha-trypsin inhibitor (I alpha I) was examined in mice, and the distribution of the proteinases among the plasma proteinase inhibitors was quantified in mixtures of purified inhibitors, in human or murine plasma, and in murine plasma following injection of purified proteins. The results demonstrate that I alpha I acts as a shuttle by transferring proteinases to other plasma proteinase inhibitors for clearance, and that I alpha I modulates the distribution of proteinase among inhibitors. The clearance of I alpha I-elastase involved transfer of proteinase to alpha 2-macroglobulin and alpha 1-proteinase inhibitor. The partition of elastase between these inhibitors was altered by I alpha I to favor formation of alpha 2-macroglobulin-elastase complexes. The clearance of I alpha I-plasmin involved transfer of plasmin to alpha 2-macroglobulin and alpha 2-plasmin inhibitor. Results of distribution studies suggest that plasmin binds to endothelium in vivo and reacts with I alpha I before transfer to alpha 2-macroglobulin and alpha 2-plasmin inhibitor. Evidence for this sequence of events includes observations that plasmin in complex with I alpha I cleared faster than free plasmin, that plasma obtained after injection of plasmin contained a complex identified as I alpha I-plasmin, and that a murine I alpha I-plasmin complex remained intact following injection into mice. Plasmin initially in complex with I alpha I more readily associated with alpha 2-plasmin inhibitor than did free plasmin.
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PMID:The role of inter-alpha-trypsin inhibitor and other proteinase inhibitors in the plasma clearance of neutrophil elastase and plasmin. 244 91

Lipoprotein (a) [Lp(a)] is a plasma component whose concentration is related to the development of atherosclerosis, although the underlying mechanisms are not known. Lp(a) contains a unique structure, apolipoprotein (a), that shares partial homology with plasminogen. We now report that plasmin catalyzes the binding of Lp(a) to both immobilized fibrinogen and fibrin in a manner analogous to our previously reported studies with plasminogen. Plasmin treatment of immobilized fibrinogen induces a 3.7-fold increase in Lp(a) binding. Low density lipoprotein, molecules similar to Lp(a) but lacking apolipoprotein (a), bind poorly to immobilized fibrinogen and binding is not increased by plasmin. Trypsin but not neutrophil elastase also increases the binding of Lp(a) to fibrinogen. Lp(a) also complexes to plasmin-fibrinogen digests, and binding increases in proportion to the time of plasmin-induced fibrinogen degradation. Lp(a) binding is lysine-binding site dependent as it is inhibited by epsilon-aminocaproic acid. Lp(a) inhibits the binding of plasminogen to plasmin-modified immobilized fibrinogen, indicating that both molecules compete for similar lysine-binding sites. These findings demonstrate an affinity between Lp(a) and protease-modified fibrinogen or fibrin and thereby provide a potential mechanism to explain the association between thrombosis, coronary atherosclerosis, and increased blood concentrations of Lp(a).
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PMID:Plasmin catalyzes binding of lipoprotein (a) to immobilized fibrinogen and fibrin. 252 34

Plasmin reacted readily with recombinant murine interferon-gamma (rIFN-gamma) in vitro, reducing the relative molecular mass of each monomer by approximately 1,000. The amino terminus of the rIFN-gamma remained intact and no sites of internal peptide bond hydrolysis were detected, indicating that the plasmin target region is most likely near the carboxyl terminus. Cleavage of rIFN-gamma was observed with similar concentrations of trypsin or min-plasmin. By contrast, human neutrophil elastase failed to alter the structure of rIFN-gamma. The plasma proteinase inhibitor, alpha 2-antiplasmin, protected rIFN-gamma from plasmin digestion. Purified alpha 2-macroglobulin-plasmin complex cleaved rIFN-gamma; however, the activity was greatly reduced compared with the free proteinase. The antiviral activity of the rIFN-gamma was enhanced four- to fivefold by treatment with plasmin or trypsin. By contrast, naturally occurring murine IFN-gamma was inactivated by plasmin (80%), suggesting that the effect of plasmin on IFN activity can vary depending on the preparation studied. The importance of plasmin at the site of an immune reaction is well established. This investigation identifies plasmin and miniplasmin as physiologic proteinases capable of reacting with IFN-gamma in vivo.
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PMID:Cleavage of recombinant murine interferon-gamma by plasmin and miniplasmin. 252 20

We investigated whether adhesive glycoproteins, such as fibronectin or fibrinogen, could function to provide a nidus for neutrophil degranulation. Elastase release in recalcified plasma was normal in afibrinogenemic plasma, but 73% less in plasma depleted of fibronectin. Proteolytic digests of fibronectin, but not intact fibronectin (50-1,000 micrograms/ml), induced a concentration-dependent release of neutrophil elastase and lactoferrin. MAbs N293, which recognized the mid-molecule of fibronectin, N294, which was directed toward the 11-kD cell adhesive fragment, and N295, generated against the amino terminal of the 11-kD fragment, inhibited the release of elastase by 7, 24, and 60%, respectively. The cytoadhesive tetrapeptide portion of fibronectin, Arg-Gly-Asp-Ser (250-1,000 micrograms/ml), released 1.94 +/- 0.10 micrograms/ml of elastase from 10(7) neutrophils, in contrast to the lack of release by the control hexapeptide, Arg-Gly-Tyr-Ser-Leu-Gly. Plasmin appeared to be the enzyme responsible for fibronectin cleavage, since neutrophil elastase release in plasma that had been depleted of plasminogen was decreased and reconstitution of plasminogen-deficient plasma with purified plasminogen corrected the abnormal release. Plasmin cleaved fibronectin to multiple degradation products, each less than 200 kD. This fibronectin digest released 1.05 microgram/ml of elastase from 10(7) neutrophils. We suggest that the activation of plasminogen leads to the formation of fibronectin degradation products capable of functioning as agonists for neutrophils.
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PMID:Fibronectin degradation products containing the cytoadhesive tetrapeptide stimulate human neutrophil degranulation. 296 12

We have examined the effects of seven proteases on human placental tissue factor in Triton X-100, focusing on extracellular and cytoplasmic domains recognized by monoclonal antibodies HTF1, C28 1.1, and C28 2.1. Plasmin produced peptides recognized on Western blots by C281.1 but not HTF1. None of the other proteases destroyed the extracellular epitope without also removing the cytoplasmic epitope, and both trypsin and chymotrypsin removed the cytoplasmic epitope with little effect on the extracellular domain. Proteinase K destroyed both epitopes, as did neutrophil elastase when used at a relatively high concentration. When digests were sampled over time and reconstituted with lipids for determination of tissue factor activity, only proteinase K consistently produced a loss in tissue factor activity at four hours. After 24 hr, other enzymes also decreased the recovered activity, with the order of effectiveness elastase > trypsin > chymotrypsin.
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PMID:Human placental tissue factor: protease susceptibility of extracellular and cytoplasmic domains. 750 71

The effect of solid-phase fibrin on the inactivation of plasmin, miniplasmin, and neutrophil leukocyte elastase (PMN-elastase) by plasma protease inhibitors (alpha 2-antiplasmin, alpha 1-protease inhibitor, alpha 2-macroglobulin) was studied. In Hanks' balanced salt solution, fibrin reduces the second-order rate constant for the inhibition of PMN-elastase by alpha 1-protease inhibitor from 8,760 x 10(4) to 4 x 10(4) M-1.s-1 and by alpha 2-macroglobulin from 121 x 10(4) to 1.8 x 10(4) M-1.s-1. The rate constant for miniplasmin inactivation by alpha 2-antiplasmin decreases from 99 x 10(4) to 1 x 10(4) M-1.s-1, by alpha 2-macroglobulin from 78 x 10(4) to 1.8 x 10(4) M-1.s-1, and by alpha 1-protease inhibitor from 0.11 x 10(4) M-1.s-1 to 0. Plasmin bound to fibrin is completely protected against alpha 2-macroglobulin and alpha 1-protease inhibitor, whereas the rate constant for the inactivation by its primary plasma inhibitor alpha 2-antiplasmin is reduced from 430 x 10(4) to 1.08 x 10(4) M-1.s-1. The competition of substrate and inhibitor for the enzyme was also studied, using fibrin preincubated with inhibitor. Under our pseudo-first-order experimental conditions, fibrin completely eliminates those interactions, the second-order rate constant of which is 1.1 x 10(5) M-1.s-1 or less in a system without fibrin surface.
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PMID:Regulation of fibrinolytic activity of neutrophil leukocyte elastase, plasmin, and miniplasmin by plasma protease inhibitors. 751 29

Fibrin thrombi form at sites of injury, where leukocytes release a variety of oxidants. To determine whether oxidants might affect proteins of the fibrinolytic system, we examined the effects of various oxidants on plasmin. Plasmin was not inhibited by micromolar concentrations of hypochlorous acid, chloramine T, or H2O2. Neither Fe nor Cu affected plasmin alone or in the presence of H2O2. However, incubation of plasmin with 5 mumol/L Cu(I or II) in the presence of the reducing agent ascorbic acid resulted in a loss of its hydrolytic activity towards proteins as well as towards small synthetic substrates. The addition of EDTA, but not mannitol, prevented its inactivation. Inactivation was prevented by the addition of catalase and accelerated by hydrogen peroxide. Preincubation of plasmin with the competitive inhibitor alpha-N-acetyl-L-lysine methyl ester prevented inactivation by Cu(II) and ascorbate. These results together suggest site-specific oxidation of plasmin's active site. Treatment of the plasminogen activators tissue plasminogen activator and two-chain urokinase-type plasminogen activator, as well as trypsin, neutrophil elastase, and thrombin with Cu(II) and ascorbate resulted in a loss of their amidolytic and proteolytic activity, indicating the general susceptibility of serine proteases to this type of oxidation. Oxidation of the zymogens Glu-plasminogen and single-chain urokinase-type plasminogen activator by Cu(II) and ascorbate resulted in the failure of these molecules to generate active enzymes when treated with plasminogen activators or plasmin, respectively. The active site His residue may be the target of oxidative inactivation, as evidenced by the partial protection afforded plasmin by the addition of Zn(II), histidine, or the platinum derivative, platinum(II) (2,2':6',2"-terpyridine) chloride. Because platelets contain micromolar concentrations of Cu and leukocytes are rich in ascorbate, Cu-dependent site-specific oxidation might play a role in modulating proteolytic events and the life span of thrombi formed at sites of tissue injury.
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PMID:Oxidative inactivation of plasmin and other serine proteases by copper and ascorbate. 836 3

The objective of this study was to characterize the plasmin-induced stimulation of leukotriene (LT) B4 biosynthesis in human peripheral monocytes (PM). Plasmin up to 175 x 10(-3) CTA U/ml triggers a concentration-dependent release of 5-lipoxygenase-derived LTB4 while release of the cyclooxygenase products thromboxane (TX) B2 and prostaglandin (PG) E2 remained unaffected. The stimulatory effect appeared to be specific in as much as 1) it was found in PM, but not in polymorphonuclear neutrophils (PMN), 2) it requires the lysine binding sites of plasmin molecule since it was inhibited by the lysine analogues 6-aminohexanoic acid (6-AHA) and trans-4(aminomethyl)cyclohexane-1-carboxylic acid (t-AMCA), 3) the intact catalytic center of plasmin is required since neither plasminogen nor catalytic center-blocked plasmin share the stimulatory effect of active plasmin, 4) other serine proteases such as alpha-chymotrypsin, human neutrophil elastase and cathepsin G did not stimulate release of detectable amounts of LTB4 from PM. In addition, catalytic center-blocked plasmin antagonized the stimulatory effect of active plasmin. Plasmin-mediated monocyte activation apparently proceeds via a pertussis toxin-sensitive G protein. Plasmin did not increase inositol (1,4,5) trisphosphate levels, but a time- and concentration-dependent stimulation of cyclic GMP formation was observed. The data show that plasmin is a specific stimulus for human peripheral monocytes. Plasmin may be an important link between the coagulation cascade and inflammatory reactions.
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PMID:Plasmin is a specific stimulus of the 5-lipoxygenase pathway of human peripheral monocytes. 890 97

Blood-brain barrier disruption is common in many neurological diseases. Matrix metalloproteinases are induced in brain injury and increase capillary permeability by attacking the extracellular matrix around cerebral capillaries. Other neutral proteases are also increased in sites of secondary injury, and may contribute to the proteolysis of the blood-brain barrier. Therefore, we studied capillary permeability and histological tissue damage after intracerebral injection of neutrophil elastase, cathepsin G, heparatinase and plasmin. Adult rats were injected intracerebrally with an enzyme. After 1, 4 or 24 h, measurements were made of brain uptake of a radiolabeled tracer, [14C]sucrose. Enzymes that significantly increased capillary permeability were injected into other rats for histological assessment of tissue damage. Elastase increased capillary permeability significantly when compared with controls; maximal damage was seen at 4 h. Plasmin produced smaller increases in permeability at 4 h, exerting its maximal effect on sucrose uptake at 24 h. Cathepsin G had a small effect at 4 h. Heparitinase had no effect. Histologic examination of elastase-injected brains at 24 h revealed multifocal perivascular and intraparenchymal acute hemorrhages accompanied by a polymorphonuclear cell infiltrate. Elastase-injected brains were microscopically similar to saline-injected brains at 1 and 4 h. Plasmin produced fibrinoid changes in the blood vessels at 24 h, coinciding with the maximal increase in capillary permeability. We conclude that neutrophil elastase attacks the capillary extracellular matrix, causing extensive hemorrhage, while plasmin leads to increased vascular permeability and fibrinoid necrosis of blood vessel walls. Differential effects of neutral proteases released secondary to injury could be important in both the acute changes in blood vessel permeability and long-term alterations in vessel structure.
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PMID:Neutral proteases and disruption of the blood-brain barrier in rat. 936 56


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