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:3.4.21.4 (trypsin)
42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To study the mechanisms of activation of human neutrophil gelatinase, the enzyme has been purified using a combination of chromatography on a DEAE-Sephacel and a gelatin-peptide-Sepharose column. On reducing SDS-polyacrylamide-gel electrophoresis the purified gelatinase ran as a single band of about 94,000 Da, and had a specific activity of 5624.4 units/mg of enzyme protein. When latent gelatinase was treated with trypsin, cathepsin G, neutrophil elastase, HgCl2 or urea, its activity was enhanced and the enzyme was processed and converted into species of the lower molecular mass. Upon activation, the protein band of 94,000 Da of reduced latent gelatinase underwent a decrease of about 6,000-12,000 Da. Formation of the species of lower molecular mass during urea activation could be blocked by the addition of EDTA.
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PMID:The activation of human neutrophil gelatinase. 196 83

Neutrophil-activating peptide 2 (NAP-2) is generated by cleavage of two inactive precursors, connective-tissue-activating peptide III (CTAP-III) and platelet basic protein (PBP), which are stored in the alpha-granules of blood platelets. Using highly purified CTAP-III as the substrate we studied the generation of NAP-2 by several neutral tissue proteinases. CTAP-III was rapidly cleaved by chymotrypsin, cathepsin G and trypsin, yielding products with neutrophil-stimulating activity. This activity remained unchanged for 24 h in the presence of chymotrypsin, decreased only slowly in the presence of cathepsin G, but was rapidly destroyed by trypsin. CTAP-III was also degraded by human neutrophil elastase and porcine pancreatic elastase, but no active fragments were obtained. By contrast, no degradation of CTAP-III was observed with thrombin, plasmin or 'granzymes' from cytolytic T-lymphocyte granules. Two active fragments of CTAP-III, generated by chymotrypsin or cathepsin G, were purified and partially sequenced, and were found to have the same N-terminal sequence as NAP-2. These results indicate that both proteinases cleave preferentially the bond between amino acids 15 (Tyr) and 16 (Ala) of CTAP-III. We conclude that chymotrypsin-like proteolytic activity in the vicinity of activated platelets may generate NAP-2 intravascularly. Due to its presence in the primary granules of neutrophils and monocytes cathepsin G is likely to be involved in this process.
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PMID:Formation of neutrophil-activating peptide 2 from platelet-derived connective-tissue-activating peptide III by different tissue proteinases. 203 37

ONO-5046, N-[2-[4-(2,2-Dimethylpropionyloxy)phenylsulfonylamino] aminoacetic acid, competitively inhibited human neutrophil elastase (IC50 = 0.044 microM, Ki = 0.2 microM). It also inhibited leukocyte elastase obtained from rabbit, rat, hamster and mouse. However, ONO-5046 did not inhibit trypsin, thrombin, plasmin, plasma kallikrein, pancreas kallikrein, chymotrypsin and cathepsin G even at 100 microM. In in vivo studies, ONO-5046 suppressed lung hemorrhage in hamster (ID50 = 82 micrograms/kg) by intratracheal administration and increase of skin capillary permeability in guinea pig (ID50 = 9.6 mg/kg) by intravenous administration, both of which were induced by human neutrophil elastase.
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PMID:ONO-5046, a novel inhibitor of human neutrophil elastase. 204 3

We have expressed the 57-amino acid Kunitz domain of the Alzheimer's beta-amyloid precursor protein (APP751) as a bacterial fusion protein. The protease inhibitory properties of the purified fusion protein, BX9, were virtually identical in all respects tested to those of purified secreted APP751. Both proteins strongly inhibited pancreatic trypsin (Kis = 0.2 and 0.3 nM) and less well epidermal growth factor-binding protein (Kis = 1 and 3.5 nM), alpha-chymotrypsin (Kis = 3 and 6 nM), and the gamma-subunit of nerve growth factor (Kis = 8 and 9 M). Neither protein appreciably inhibited plasma and pancreatic kallikreins, thrombin, lung tryptase, neutrophil elastase, or cathepsin G. The remarkable similarity of the protease inhibitory profile of BX9 to that of secreted APP751 suggests that proper intramolecular disulfide bond formation has occurred in the bacterial fusion protein and leads to the conclusion that the amyloid precursor protein Kunitz domain is a relatively specific inhibitor of only a few trypsin-like arginine esterases.
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PMID:The protease inhibitory properties of the Alzheimer's beta-amyloid precursor protein. 211 13

Human mucus proteinase inhibitor (MPI) consists of 107 amino acids arranged in two domains showing high homology to each other. This protein is an inhibitor of different serine proteinases including trypsin, chymotrypsin, leukocyte elastase and cathepsin G. On the basis of sequence comparisons it has been suggested that the first domain inhibits trypsin, whereas the second one was thought to be active against chymotrypsin and elastase. To prove the location of the different inhibitory activities gene fragments for both domains have been cloned separately and expressed in Escherichia coli. Inhibition assays with the isolated recombinant domains showed that the second domain is active against chymotrypsin, neutrophil elastase and trypsin, whereas for the first domain only a weak activity against trypsin could be detected. These results suggest that the inhibitory activities of the native molecule towards these three proteinases are all located in the second domain.
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PMID:The location of inhibitory specificities in human mucus proteinase inhibitor (MPI): separate expression of the COOH-terminal domain yields an active inhibitor of three different proteinases. 215 59

Alpha 1-Antitrypsin (alpha 1-AT) is similar to other members of the serine protease inhibitor (serpin) supergene family in that it undergoes structural rearrangement during the formation of a covalently stabilized inhibitory complex with its cognate enzyme, neutrophil elastase. We have recently demonstrated an abundant, high-affinity cell surface receptor on human hepatoma cells and human mononuclear phagocytes which recognizes a conformation-specific domain of the alpha 1-AT-elastase complex as well as of other serpin-enzyme complexes (Perlmutter, D. H., Glover, G. I., Rivetna, M., Schasteen, C. S., and Fallon, R. J. (1990) Proc. Natl. Acad. Sci. U.S.A. 87, 3753-3757). Binding to this serpin-enzyme complex (SEC) receptor activates a signal transduction pathway for increased expression of the alpha 1-AT gene and may be responsible for clearance of serpin-enzyme complexes. In this study, we show that there is time-dependent and saturable internalization of alpha 1-AT-elastase and alpha 1-AT-trypsin complexes in human hepatoma HepG2 cells. Internalization is mediated by the SEC receptor as defined by inhibition by synthetic peptides corresponding to residues 359-374 of alpha 1-AT. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis analysis of intracellular radioactivity demonstrated that intact 75- and 66-kDa alpha 1-AT-trypsin complexes were internalized. Kinetic analysis of internalization at 37 degrees C showed that a single cohort of 125I-alpha 1-AT-trypsin complexes, prebound to cells at 4 degrees C, disappeared from the cell surface and accumulated intracellularly within 5-15 min at 37 degrees C. The intracellular concentration of radiolabeled complexes then decreased rapidly coincident with appearance of acid-soluble degradation products in the extracellular culture fluid. Intracellular degradation was inhibited by internalization at 18 degrees C or by internalization at 37 degrees C in the presence of weak bases ammonium chloride, primaquine, and chloroquine, indicating that degradation is lysosomal. These results indicate that in addition to its role in signal transduction the SEC receptor participates in internalization and delivery of alpha 1-AT-protease complexes to lysosome for degradation.
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PMID:Endocytosis and degradation of alpha 1-antitrypsin-protease complexes is mediated by the serpin-enzyme complex (SEC) receptor. 221 87

Human mast cells can be divided into two subsets based on serine proteinase composition: a subset that contains the serine proteinases tryptase and chymase (MCTC), and a subset that contains only tryptase (MCT). In this study we examined both types of mast cells for two additional proteinases, cathepsin G and elastase, which are the major serine proteinases of neutrophils. Because human mast cell chymase and cathepsin G are both chymotrypsin-like proteinases, the properties of these enzymes were further defined to confirm their distinctiveness. Comparison of their N-terminal sequences showed 30% nonidentity over the first 35 amino acids, and comparison of their amino acid compositions demonstrated a marked difference in their Arg/Lys ratios, which was approximately 1 for chymase and 10 for cathepsin G. Endoglycosidase F treatment increased the electrophoretic mobility of chymase on SDS gels, indicating significant N-linked carbohydrate on chymase; no effect was observed on cathepsin G. Immunoprecipitation and immunoblotting with specific antisera to each proteinase revealed little, if any, detectable cross-reactivity. Immunocytochemical studies showed selective labelling of MCTC type mast cells by cathepsin G antiserum in sections of human skin, lung, and bowel. No labeling of mast cells by elastase antiserum was detected in the same tissues, or in dispersed mast cells from lung and skin. A protein cross-reactive with cathepsin G was identified in extracts of human skin mast cells by immunoblot analysis. This protein had a slightly higher Mr (30,000) than the predominant form of neutrophil cathepsin G (Mr 28,000), and could not be separated from chymase (Mr 30,000) by SDS gel electrophoresis because of the size similarity. Using casein, a protein substrate hydrolyzed at comparable rates by chymase and cathepsin G, it was shown that about 30% of the caseinolytic activity in mast cell extracts was sensitive to inhibitors of cathepsin G that had no effect on chymase. Hydrolytic activity characteristic of elastase was not detected in these extracts. These studies indicate that human MCTC mast cells may contain two different chymotrypsin-like proteinases: chymase and a proteinase more closely related to cathepsin G, both of which are undetectable in MCT mast cells. Neutrophil elastase, on the other hand, was not detected in human mast cells by our procedures.
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PMID:Identification of a cathepsin G-like proteinase in the MCTC type of human mast cell. 221 56

Human rheumatoid synovial cells in culture secrete at least three related metalloproteinases that digest extracellular matrix macromolecules. One of them, termed matrix metalloproteinase 2 (MMP-2), has been purified as an inactive zymogen (proMMP-2). The final product is homogeneous on SDS/PAGE with Mr = 72,000 under reducing conditions. The NH2-terminal sequence of proMMP-2 is Ala-Pro-Ser-Pro-Ile-Ile-Lys-Phe-Pro-Gly-Asp-Val-Ala-Pro-Lys-Thr, which is identical to that of the so-called '72-kDa type IV collagenase/gelatinase'. The zymogen can be rapidly activated by 4-aminophenylmercuric acetate to an active form of MMP-2 with Mr = 67,000, and the new NH2-terminal generated is Tyr-Asn-Phe-Phe-Pro-Arg-Lys-Pro-Lys-Trp-Asp-Lys-Asn-Gln-Ile. However, following 4-aminophenylmercuric acetate activation, MMP-2 is gradually inactivated by autolysis. Nine endopeptidases (trypsin, chymotrypsin, plasmin, plasma kallikrein, thrombin, neutrophil elastase, cathepsin G, matrix metalloproteinase 3, and thermolysin) were tested for their abilities to activate proMMP-2, but none had this ability. This contrasts with the proteolytic activation of proMMP-1 (procollagenase) and proMMP-3 (prostromelysin). The optimal activity of MMP-2 against azocoll is around pH 8.5, but about 50% of activity is retained at pH 6.5. Enzymic activity is inhibited by EDTA, 1,10-phenanthroline or tissue inhibitor of metalloproteinases, but not by inhibitors of serine, cysteine or aspartic proteinases. MMP-2 digests gelatin, fibronectin, laminin, and collagen type V, and to a lesser extent type IV collagen, cartilage proteoglycan and elastin. Comparative studies on digestion of collagen types IV and V by MMP-2 and MMP-3 (stromelysin) indicate that MMP-3 degrades type IV collagen more readily than MMP-2, while MMP-2 digests type V collagen effectively. Biosynthetic studies of MMPs using cultured human rheumatoid synovial fibroblasts indicated that the production of both proMMP-1 and proMMP-3 is negligible but it is greatly enhanced by the treatment with rabbit-macrophage-conditioned medium, whereas the synthesis of proMMP-2 is constitutively expressed by these cells and is not significantly affected by the treatment. This suggests that the physiological and/or pathological role of MMP-2 and its site of action may be different from those of MMP-1 and MMP-3.
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PMID:Matrix metalloproteinase 2 from human rheumatoid synovial fibroblasts. Purification and activation of the precursor and enzymic properties. 226 96

Human alpha 2-antiplasmin rapidly forms a stable, equimolar complex with either its target enzyme, plasmin, or with trypsin. Perturbation of the inhibitor-trypsin complex results in peptide bond cleavage at the reactive site of the inhibitor with the concomitant release of a small peptide fragment which apparently represents the carboxyl-terminal segment of the inhibitor. Sequence analysis of this fragment, together with that of an overlapping peptide obtained by treatment of native inhibitor with either Staphylococcus aureus V8 proteinase or human neutrophil elastase, yields data which indicate that the reactive site of alpha 2-antiplasmin encompasses a P1-P'1 Arg-Met sequence. However, unlike alpha 1-1-proteinase inhibitor which has a Met residue in the P1-position, oxidation of alpha 2-antiplasmin has no effect on its inhibitory activity toward either plasmin, trypsin, or chymotrypsin, indicating the lesser mechanistic importance of the P'1-residue during enzyme inactivation by this inhibitor.
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PMID:The reactive site of human alpha 2-antiplasmin. 243 12

The relationship between inter-alpha inhibitor (I alpha I) and urinary proteinase inhibitor (UPI) was examined by comparing purified UPI with a proteolytic fragment of I alpha I (I'), and by demonstrating that inflammatory cells produce similar fragments under physiologic conditions. Purified I', derived by chymotrypsin digestion of I alpha I, was similar to UPI in apparent molecular weight (68,000-69,000), amino acid composition, immunoreactivity, and inhibitory activity against trypsin, chymotrypsin, and neutrophil elastase. The production of similar inhibitory fragments by murine peritoneal macrophages, human neutrophils, and a murine mast cell line was quantified. Neutrophils were most efficient at proteolyzing I alpha I. Comparison of the pattern of I alpha I degradation by neutrophil preparations with that by pure enzymes, suggested that both elastase and cathepsin G mediate neutrophil proteolysis of I alpha I. These proteinases may thus be responsible for inflammation-related increases in UPI-like inhibitor levels in vivo.
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PMID:Inflammatory cells degrade inter-alpha inhibitor to liberate urinary proteinase inhibitors. 246 21


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