Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.21.4 (trypsin)
 42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Fragmentation of lung matrix fibronectin by proteases released from activated phagocytic cells has been implicated in lung vascular injury. We examined whether denatured collagen (gelatin)-bound fibronectin can be degraded by peritoneal exudate mononuclear phagocytes harvested from rats 96 h after intraperitoneal casein injection. Microtiter plates were pretreated with gelatin and then supplemented with purified 125I rat plasma fibronectin, which readily bound to the gelatin. Stimulated inflammatory exudate cells were added and proteolysis of the bound fibronectin was studied by the release of [125I]fibronectin fragments into the media. Following 2 h of incubation, peritoneal exudate mononuclear macrophages stimulated with opsonized zymosan released three times more radiolabeled fibronectin into the medium as compared to background controls, and 1.5 times more radiolabeled fibronectin as compared to cells not stimulated with zymosan. Western blot analysis and autoradiography confirmed the presence of fragments of fibronectin in the culture medium. Some of these fragments were clearly derived from the radiolabeled matrix, but others that were not labeled were potentially released directly from the added stimulated macrophages. The release of radiolabeled fibronectin was inhibited by N-p-tosyl-L-lysine chloromethyl ketone (TLCK), a trypsin specific inhibitor, but not by methoxysuccinyl-alanine-alanine-proline-valine-chloromethyl-ketone (AAPVCK), a leukocyte elastase-specific inhibitor. These results suggest that fibronectin bound to denatured collagen is susceptible to leukocyte elastase-independent enzymatic degradation by stimulated inflammatory exudate mononuclear phagocytic cells. Such proteolysis may mimic a pathological process associated with lung vascular injury during the sequestration of activated macrophages in the lung microcirculation and interstitium.
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PMID:Leukocyte elastase-independent proteolysis of gelatin-bound fibronectin by inflammatory macrophages. 175 31

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

Heparin depresses the second-order rate constant ka for the inhibition of neutrophil elastase by alpha 1-proteinase inhibitor. High molecular mass heparin decreases ka from 1.3 x 10(7) M-1 s-1 to a limit of 4.6 x 10(4) M-1 s-1. Low molecular mass heparin is about 7-fold less effective. Dermatan sulfate and chondroitin sulfate are less efficient. Heparin preparations used in clinical care also strongly depress ka when tested at concentrations corresponding to their clinical efficacy. Heparin also decreases the ka for the elastase/eglin c and the cathepsin G/alpha 1-proteinase inhibitor systems but not that for the alpha 1-proteinase inhibitor/pancreatic elastase or trypsin pairs. These results, together with Sepharose-heparin binding studies, indicate that the ka-depressing effect of the polymer is related to its ability to form a tight complex with elastase but not with alpha 1-proteinase inhibitor. One mol of high molecular mass heparin binds 3 mol of neutrophil elastase with a Kd of 3.3 nM. Low molecular mass heparin binds elastase with a 1:1 stoichiometry and a Kd of 89 nM. For both heparins ka is lowest when elastase is fully saturated with heparin. From this we conclude that heparin decreases ka, because the heparin-elastase complex is able to slowly react with alpha 1-proteinase inhibitor and not because the inhibitor slowly dissociates the heparin-elastase complex. These findings may have important pathophysiological bearing.
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PMID:Heparin strongly decreases the rate of inhibition of neutrophil elastase by alpha 1-proteinase inhibitor. 186 57

To investigate the hypothesis that mast cell and neutrophil proteases stimulate airway gland secretion, we studied the effects of two mast cell proteases (tryptase and chymase) and two neutrophil enzymes (human neutrophil elastase and cathepsin G) on secretion of 35S-labeled macro-molecules from cultured bovine airway gland serous cells. Tryptase had no effect, but the other three enzymes stimulated secretion. Threshold concentrations of the enzymes (greater than or equal to 10(-10) M) were lower by two orders of magnitude than other agonists (e.g., histamine, prostaglandins, beta-adrenergic agonists). Only proteases induced maximal secretory response (greater than or equal to 80% depletion of 35S-labeled macromolecules), and these responses were greater than 10-fold larger than those of other agonists. The active catalytic sites of the enzymes are required for their secretory activities. These findings suggest a role for these enzymes in the pathogenesis of inflammatory airway diseases associated with hypersecretion, and they suggest that the use of selective site-directed inhibitors of these enzymes may provide a novel strategy for intervention in inflammatory diseases of the airways associated with hypersecretion (e.g., cystic fibrosis, chronic bronchitis).
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PMID:Role of mast cell and neutrophil proteases in airway secretion. 189 27

A protein which inhibits the prophenoloxidase----phenoloxidase (EC 1.14.18.1) proteolytic activation in hemocyte extracts of Locusta migratoria was isolated from the plasma of the same insect and partially characterized. It shows a molecular weight of 14,000, an inhibiting activity toward the cascade system in the insect hemocytes, which resulted in a lower production of phenoloxidase, a key enzyme for the defence mechanism in arthropods. To identify the specificity of the Locusta inhibitor and consequently the specificity of its target enzyme, inhibitory tests were performed against a number of known serine-proteases. A strong in vitro inhibiting activity toward chymotrypsin and, to a lesser extent, toward human leukocyte elastase was present, while trypsin, Carlsberg subtilisin, human thrombin and pancreatic elastase failed to react. The lack of trypsin inhibition by the isolated inhibitor suggested that the trypsin-catalysed activation of the system in the hemocyte extract takes place under different controls or at an earlier stage of the cascade. The N-terminal sequence of the inhibitor reveals that this molecule is different from the protease inhibitors isolated from other arthropods.
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PMID:Purification of a protease inhibitor which controls prophenoloxidase activation in hemolymph of Locusta migratoria (insecta). 191 Mar 40

We examined the roles of enzymes from mast cells and from neutrophils in stimulating airway submucosal gland secretion. To avoid effects on surface epithelial cells and goblet cells, we studied a line of cultured bovine tracheal gland serous cells. We discovered that mast cell chymase and neutrophil elastase are the most potent secretagogues of airway submucosal glands described. Mast cell chymase markedly stimulated serous cell secretion in a concentration-dependent fashion with a threshold of 10(-10) M, whereas tryptase had no effect. The response to 10(-8) M chymase (1,530 +/- 80% over baseline; mean +/- SEM) was approximately 10-fold higher than that evoked by other agonists such as histamine and isoproterenol. Both neutrophil proteases also stimulated secretion in a concentration-dependent fashion with a threshold of greater than 10(-10) M. Elastase was more potent than cathepsin G, causing a maximal secretory response of 1,810 +/- 60% over baseline at 10(-8) M. Secretion by the 3 proteases was noncytotoxic and required catalytically active enzymes. These findings suggest a potential role for neutrophil and mast cell proteases in the pathogenesis of increased and abnormal submucosal gland secretions in diseases associated with inflammation of the airways.
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PMID:Role of enzymes from inflammatory cells on airway submucosal gland secretion. 192 74

Inhibitory activities against elastase, chymotrypsin and trypsin were studied in the fluid from experimentally developed suction blisters in the uninvolved skin of patients with psoriasis. These activities determined by spectrophotometry of specific synthetic low molecular weight substrates were compared with respective antiproteinase activities in sera of 32 patients with psoriatic lesions, ten patients in remission, and ten healthy volunteers. A marked reduction (29.2%) in the specific elastase inhibitory activity of blister fluid was found in patients with psoriasis when compared with normal subjects (p less than 0.05), since neither chymotrypsin nor trypsin inhibitory activities were altered. This reduction was despite about a 30% increase in the elastase inhibitory activity in the sera of these patients, which was related presumably to their increased activity of alpha 1-proteinase inhibitor, the main serum antiserine proteinase inhibitor. A decreased blister fluid:serum elastase inhibition ratio was shown in a large majority of patients with psoriasis, even in symptomless patients. The deficiency in specific elastase inhibitory activity of suction blister fluid was predominantly associated with early onset of psoriasis, guttate lesions and inactive lesions, skin involvement less than 20% of body surface, duration of relapse shorter than 2 months, and frequent relapses. These data indicate that the uninvolved skin of patients with psoriasis contains low concentrations of specific elastase tissue inhibitor, which deficiency might result in an excessive in vivo hydrolytic activity of neutrophil elastase released from migrating cells in the psoriatic skin.
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PMID:Decreased specific anti-elastase activity in the uninvolved skin of patients with psoriasis. 192 39

Human mucus proteinase inhibitor is a two-domain protein which inactivates bovine trypsin and chymotrypsin, leukocyte elastase and cathepsin G. In order to localize the site(s) responsible for these inhibitory activities, the two domains were isolated after specific cleavage of the Asp49-Pro50 bond following mild acid treatment of the bronchial inhibitor. The carboxy-terminal domain was active against leukocyte elastase, trypsin and chymotrypsin whereas the amino-terminal domain, which contained a putative antitryptic active site, was devoid of activity. This implicates that, in the whole molecule, the inhibitory activity region is localized only in the carboxy-terminal domain.
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PMID:Separation of the two domains of human mucus proteinase inhibitor: inhibitory activity is only located in the carboxy-terminal domain. 193 Jan 99

Site-specific mutagenesis techniques have been used to construct active site variants of the Kunitz-type protease inhibitor domain present in the Alzheimer's beta-amyloid precursor protein (APP-KD). Striking alteration of its protease inhibitory properties were obtained when the putative P1 residue, arginine, was replaced with the small hydrophobic residue valine. The altered protein was no longer inhibitory toward bovine pancreatic trypsin, human Factor XIa, mouse epidermal growth factor-binding protein, or bovine chymotrypsin, all of which are strongly inhibited by the unaltered APP-KD (Sinha, S., Dovey, H. F., Seubert, P., Ward, P. J., Blacher, R. W., Blaber, M., Bradshaw, R. A., Arici, M., Mobley, W. C., and Lieberburg, I. (1990) J. Biol. Chem. 265, 8983-8985). Instead, the P1-Val-APP-KD was a potent inhibitor of human neutrophil elastase, with a Ki = 0.8 nM, as estimated by the inhibition of the activity of human neutrophil elastase measured using a chromogenic substrate. It also inhibited the degradation of insoluble elastin by the enzyme virtually stoichiometrically. Replacement of the P1' (Ala) and P2' (Met) residues of P1-Val-MKD with the corresponding residues (Ser, Ile) from alpha 1-proteinase inhibitor resulted in an inactive protein, underscoring the mechanistic differences between the serpins from the Kunitz-type protease inhibitor family. These results confirm the importance of the P1 arginine residue of APP-KD in determining inhibitory specificity, and are also the first time that a single amino acid replacement has been shown to generate a specific potent human neutrophil elastase inhibitor from a human KD sequence.
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PMID:Conversion of the Alzheimer's beta-amyloid precursor protein (APP) Kunitz domain into a potent human neutrophil elastase inhibitor. 193 50

The administration of trypsin 24 h before, admixed with, or 24 h after administration of an emphysema-inducing dose of porcine pancreatic elastase (PPE) to hamsters resulted in significantly enhanced destruction of lung tissue as evidenced by mean linear intercept values 4 weeks post PPE. The coadministration of trypsin with a nonemphysema-inducing dose of PPE resulted in a significant destructive lung lesion. Administration of trypsin 24 h before or admixed with human leukocyte elastase (HLE) resulted in a lesion that was significantly reduced relative to that produced by administration of HLE alone. When trypsin was administered 24 h after HLE, no effect on the lesion was observed. In vitro, coincubation of trypsin with PPE resulted in a slight enhancement of rate of hydrolysis of elastin, while coincubation of trypsin with HLE resulted in a significant reduction of the rate of hydrolysis. These results suggest that interaction with other proteases may offer an additional physiological control mechanism to prevent inappropriate tissue destruction.
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PMID:Differential modification of elastase-induced emphysema in hamsters by trypsin. 195 5


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