EC:3.4.21.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.1 (chymotrypsin)
10,938 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

After ovulation in salmonids, the eggs are held in the peritoneal cavity and bathed in coelomic fluid. Using a chromogenic peptide substrate, the anti-protease activity of brook trout coelomic fluid was measured. Trypsin, chymotrypsin, and pancreatic elastase activities were significantly inhibited by coelomic fluid containing 5.0, 10.0, and 25.0 microgram of total protein, respectively. Using subtractive cDNA cloning, we have previously characterized a set of ovarian proteins called TOPs (trout ovulatory proteins) that are secreted into the coelomic fluid after ovulation. TOPs are most homologous to mammalian antileukoprotease, a heat- and acid-stable serine protease inhibitor. On the basis of this homology, we hypothesized that the anti-trypsin activity observed in the coelomic fluid was related to the presence of TOPs. In the present study, this hypothesis was supported by the acid- and heat-stability of the anti-trypsin activity present in coelomic fluid. Coelomic fluid could be heated to 50 degrees C or treated at a pH less than 5.2 without a significant decrease in the inhibitory activity. Further, coelomic fluid from which TOPs were immunoprecipitated had significantly less anti-trypsin activity than nonimmunoprecipitated controls. We propose that TOP proteins are uniquely produced by the ovary and secreted into the coelomic fluid to act as protease inhibitors following ovulation.
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PMID:Trout ovulatory proteins are partially responsible for the anti-proteolytic activity found in trout coelomic fluid. 971 46

Plasminogen activator inhibitor-1 (PAI-1) is a serine protease inhibitor of the serpin superfamily which rapidly inactivates tissue plasminogen activator (tPA), but reacts with thrombin at a much slower rate. Based on the previous mutagenesis studies and the X-ray crystal structure of the thrombin E192Q-bovine pancreatic trypsin inhibitor (BPTI) complex, the structural basis for the slow reactivity of thrombin with PAI-1 is investigated in this study. In the crystal structure of the thrombin E192Q-BPTI complex, the reactive site loop of BPTI is stabilized in a canonical conformation by several productive interactions (e.g., Glu39 of thrombin is ion-paired to the P5' Arg, and Gln192 is hydrogen-bonded to the P2 and P4 backbone carbonyls of BPTI). PAI-1 contains Glu residues at both the P4' and P5' positions, and previous mutagenesis studies suggest that these residues make productive interactions with Arg39 of tPA as well as with two other positively charged residues present on the 39-loop of the protease (chymotrypsin numbering). Glu39 and Glu192 of thrombin would be unable to make such productive interactions with PAI-1. Instead, their repulsive interactions with the similarly charged residues and/or the backbone carbonyls of the PAI-1 reactive site loop could restrict the reaction. To test this, the rate constants (k2) for the PAI-1 inactivation of wild-type, E39K, E39Q, E192Q, E192M, and E39K/E192Q thrombins were determined. The inactivation rates of E39K [k2 = (4.3 +/- 0.2) x 10(4) M-1 s-1] and E39Q [k2 = (1.0 +/- 0.1) x 10(4) M-1 s-1] were 50- and 12-fold faster than the inactivation of wild-type thrombin [k2 = (8.6 +/- 0. 5) x 10(2) M-1 s-1], respectively. Relative to thrombin, the PAI-1 inactivation rates were improved 31-fold for E192Q [k2 = (2.7 +/- 0. 5) x 10(4) M-1 s-1] and 5-fold for E192M [k2 = (4.3 +/- 0.8) x 10(3) M-1 s-1] thrombins. With the double mutant E39K/E192Q, the inactivation rate [k2 = (5.4 +/- 0.4) x 10(5) M-1 s-1] was improved 628-fold over wild-type thrombin. These results suggest that repulsive interactions and/or lack of productive electrostatic interactions between PAI-1 and Glu39 and Glu192 of thrombin are responsible for the slow reaction of thrombin with this serpin.
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PMID:Elucidation of the structural basis for the slow reactivity of thrombin with plasminogen activator inhibitor-1. 974 20

Inter-alpha-inhibitor (I alpha I) is a serine protease inhibitor present in human plasma. It has a molecular weight of about 220 kDa which encompasses 3 chains including two heavy chains and one light chain. The light chain, known as bikunin, is responsible for the antitryptic activity of I alpha I in the inhibition of various enzymes, such as trypsin and chymotrypsin. Under physiologic or certain pathologic circumstances, several macromolecules related to I alpha I appear in plasma and urine. However, the physiologic role of I alpha I remains unclear. As far as urolithiasis is concerned, two urinary macromolecules related to I alpha I have been isolated and shown to be potent inhibitors of calcium oxalate formation. One of these inhibitors, uronic-acid-rich protein (UAP), has been identified and well characterized. The sequence of the first 18 amino acid residues of UAP is identical with that of bikunin. Furthermore, the immunoreaction between UAP and I alpha I antibody using immunoblot analysis was positive. UAP isolated from the urine of stone formers exhibited less inhibitory activity towards calcium oxalate crystallization than that derived from the urine of healthy subjects. This suggests a structural abnormality of the inhibitor obtained from stone patients. The organic matrix extracted from kidney stones contained a protein antigenically related to I alpha I. We conclude that UAP is a member of I alpha I family taking part in inhibiting calcium oxalate crystallization, and modulating the formation of stones in the urinary tract.
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PMID:Inter-alpha-inhibitor: a protein family involved in the inhibition of calcium oxalate crystallization. 981 21

We introduce a new potent inhibitor, N-[2, 2-dimethyl-3-(N-(4-cyanobenzoyl)amino)nonanoyl]-L-phenylalanine ethyl ester (3), which preferentially inhibits serine proteases belonging to a chymotrypsin superfamily. This inhibitor, despite consisting of a stable ethyl ester structure, showed strong inhibitory activities toward bovine alpha-chymotrypsin, human cathepsin G, and porcine elastase by acting as an acylating agent. The calculated inactivation rate constant (kinact) and enzyme-inhibitor dissociation constant (Ki) against alpha-chymotrypsin were 0.0028 s-1 and 0.0045 microM, respectively (kinact/Ki = 630 000 M-1 s-1). These kinetic parameters indicate that this inhibitor is one of the most powerful alpha-chymotrypsin inactivators ever reported. On the basis of structure-activity relationship (SAR) and structure-stability relationship studies of analogues of 3, which were modified in three parts of the molecule, i.e., the 4-cyanophenyl group, beta-substituent at the beta-amino acid residue, and ester structure, we suggest that the potent inhibitory activity of 3 is due to the following structural features: (1) the ethyl ester which enforces specific acyl-enzyme formation, (2) the n-hexyl group at the beta-position and 4-cyanophenyl group which stabilize the acyl-enzyme, and (3) the phenylalanine residue which functions for the specific recognition of S1 site in the enzyme. In particular, the action of 3 as a potent inhibitor, but poor substrate, can be ascribed largely to the very slow deacylation rate depending on the structure factors cited in feature 2. The results of inhibition by 3 and its analogues against different serine proteases such as chymase, cathepsin G, and elastase suggest that these compounds recognize common parts in the active sites among these chymotrypsin-like serine proteases, and 3 is one of the most suitable structures to recognize those common parts. Our results provide an intriguing basis for further developments in the design of a stable ester-based selective serine protease inhibitor.
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PMID:N-[2,2-dimethyl-3-(N-(4-cyanobenzoyl)amino)nonanoyl]-L-phenylalanine ethyl ester as a stable ester-type inhibitor of chymotrypsin-like serine proteases: structural requirements for potent inhibition of alpha-chymotrypsin. 992 37

Human tissue factor pathway inhibitor-2 (TFPI-2)/matrix-associated serine protease inhibitor (MSPI), a Kunitz-type serine protease inhibitor, inhibits plasmin, trypsin, chymotrypsin, plasma kallikrein, cathepsin G, and factor VIIa-tissue factor complex. The mature protein has a molecular mass of 32-33 kDa, but exists in vivo as two smaller, underglycosylated species of 31 and 27 kDa. TFPI-2/MSPI triplet is synthesized and secreted by a variety of cell types that include epithelial, endothelial, and mesenchymal cells. Because the majority (75-90%) of TFPI-2/MSPI is associated with the extracellular matrix (ECM), we examined which components of the ECM bind TFPI-2/MSPI. We found that TFPI-2/MSPI bound specifically to heparin and dermatan sulfate. Interaction of these two glycosaminoglycans (GAGs) with TFPI-2/MSPI involved one or more common protein domains, as evidenced by cross-competition experiments. However, binding affinity for TFPI-2/MSPI with heparin was 250-300 times greater than that for TFPI-2/MSPI with dermatan sulfate. Binding of TFPI-2/MSPI to GAGs was inhibited by NaCl or arginine but not by glucose, mannose, galactose, 6-aminohexanoic acid, or urea, suggesting that arginine-mediated ionic interactions participate in the GAG binding of TFPI-2/MSPI. This supposition was supported by the observation that only NaCl or arginine could elute the TFPI-2/MSPI protein triplet from an ECM derived from human dermal fibroblasts. Reduced TFPI-2/MSPI did not bind to heparin, suggesting that proper disulfide pairings and conformation are essential for matrix binding. To determine whether heparin modulates the activity of TFPI-2/MSPI, we determined the rate of inhibition of plasmin by the inhibitor with and without heparin and found that TFPI-2/MSPI is more active in the presence of heparin. Collectively, our results demonstrate that conformation-dependent arginine-mediated ionic interactions are responsible for the TFPI-2/MSPI triplet binding to fibroblast ECM, heparin, and dermatan sulfate and that heparin augmented the rate of inhibition of plasmin by TFPI-2/MSPI.
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PMID:Matrix localization of tissue factor pathway inhibitor-2/matrix-associated serine protease inhibitor (TFPI-2/MSPI) involves arginine-mediated ionic interactions with heparin and dermatan sulfate: heparin accelerates the activity of TFPI-2/MSPI toward plasmin. 1049 84

Blood serine protease inhibitors are becoming better understood and increasingly applied in blood clotting, cancer and other diseases. Reptiles are suitable models for blood coagulation and related processes, moreover, caiman is a good comparative model of a non-poisonous reptile. Recently, we reported the purification of a kininogen, the presence of proteases involved in blood clotting, and a serine protease inhibitor in Caiman crocodilus yacare plasma. In this paper, we described the partial sequence of an inhibitor (CcTI). The inhibitor is an 80-kDa protein, and it inactivates trypsin and chymotrypsin the hydrolysis of specific chromogenic substrates and in the degradation of gelatin. The inhibitor is member of Kazal-type inhibitor family and consists of several domains, its putative reactive site is Arg-His.
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PMID:Preliminary characterization of a Kazal-type serine protease inhibitor from Caiman crocodilus yacare plasma. 1061 9

The Bowman-Birk inhibitor (BBI) is a soybean-derived serine protease inhibitor and a potential cancer chemopreventive agent for humans. In this Phase I clinical trial, BBI concentrate was administered as a single oral dose to 24 subjects with oral leukoplakia. Pharmacokinetics of BBI was analyzed, and subjects were monitored clinically for toxic effects. Subjects received between 25 and 800 chymotrypsin inhibitor units (CIU) of the compound in a dose escalation trial. BBI was taken up rapidly, and a metabolic product of BBI was excreted in the urine within 24-48 h. No clinical or laboratory evidence of toxicity was observed in the study. Protease activity was also measured in buccal cells to evaluate usefulness as a biomarker. Single-dose BBI concentrate administered up to 800 CIU was well tolerated and appeared to be nontoxic. Further investigation in Phase II clinical trials is being done.
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PMID:Single-dose administration of Bowman-Birk inhibitor concentrate in patients with oral leukoplakia. 1066 62

A serine protease inhibitor of the Kunitz-STI (soybean trypsin inhibitor) family, isolated from the legume seeds of winged bean, was found to inhibit chymotrypsin at a 1:2 stoichiometric ratio. When the structure was determined in our laboratory, it was found to form a characteristic beta-trefoil fold, which is also seen in other proteins from distant families and sources. The folding organization divides the protein into three approximately equal subdomains related by a pseudo-threefold axis of symmetry passing parallel to the barrel axis of the trefoil. Following the now established idea that the present-day genes originated from ancestral minigenes through evolution, the origin of the proteins having this beta-trefoil organization is scrutinized using its subdomain motif as the search probe. The results, based mainly on structural analyses, indicate the independent existence of such a motif, mimicking the unknown ancestral protein(s) that might have been distributed in nature, not only by gene duplication, but also by insertion and permutation in other folds. The understanding led to a hypothesis for the possible origin of the Kunitz-STI family. On the basis of this model of evolution, structurally hypervariable regions were located on the protein where mutations could be designed and a broad range of engineering of the protein's activity could be conceived.
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PMID:The molecular evolutionary history of a winged bean alpha-chymotrypsin inhibitor and modeling of its mutations through structural analyses. 1075 63

A serine protease inhibitor, termed TsCEI, was purified from adult-stage Trichuris suis by acid precipitation, affinity chromatography (elastase-agarose), and reverse-phase HPLC. The molecular weight of TsCEI was estimated at 6.437 kDa by laser desorption mass spectrometry. TsCEI potently inhibited both chymotrypsin (K(i) = 33.4 pM) and pancreatic elastase (K(i) = 8.32 nM). Neutrophil elastase, chymase (mouse mast cell protease-1, mMCP-1), and cathepsin G were also inhibited by TsCEI, whereas trypsin, thrombin, and factor Xa were not. The cDNA-derived amino acid sequence of the mature TsCEI consisted of 58 residues including 9 cysteine residues with a molecular mass of 6.196 kDa. TsCEI displayed 48% sequence identity to a previously characterized trypsin/chymotrypsin inhibitor of T. suis, TsTCI. TsCEI showed 36% sequence identity to a protease inhibitor from the hemolymph of the honeybee Apis mellifera. Sequence similarity was also detected with the trypsin/thrombin inhibitor of the European frog Bombina bombina, the elastase isoinhibitors of the nematode Anisakis simplex, and the chymotrypsin/elastase and trypsin inhibitors of the nematode Ascaris suum. The inhibitors of T. suis, an intestinal parasite of swine, may function as components of a parasite defense mechanism by modulating intestinal mucosal mast cell-associated, protease-mediated, host immune responses.
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PMID:Trichuris suis: a secretory chymotrypsin/elastase inhibitor with potential as an immunomodulator. 1086 16

Although blood-feeding hookworms infect over a billion people worldwide, little is known about the molecular mechanisms through which these parasitic nematodes cause gastrointestinal hemorrhage and iron deficiency anemia. A cDNA corresponding to a secreted Kunitz type serine protease inhibitor has been cloned from adult Ancylostoma ceylanicum hookworm RNA. The translated sequence of the A. ceylanicum Kunitz type inhibitor 1 (AceKI-1) cDNA predicts a 16-amino acid secretory signal sequence, followed by a 68-amino acid mature protein with a molecular mass of 7889 daltons. Recombinant protein (rAceKI-1) was purified from induced lysates of Escherichia coli transformed with the rAceKI-1/pET 28a plasmid, and in vitro studies demonstrate that rAceKI-1 is a tight binding inhibitor of the serine proteases chymotrypsin, pancreatic elastase, neutrophil elastase, and trypsin. AceKI-1 inhibitory activity is present in soluble protein extracts and excretory/secretory products of adult hookworms but not the infective third stage larvae. The native AceKI-1 inhibitor has been purified to homogeneity from soluble extracts of adult A. ceylanicum using size exclusion and reverse-phase high pressure liquid chromatography. As a potent inhibitor of mammalian intestinal proteases, AceKI-1 may play a role in parasite survival and the pathogenesis of hookworm anemia.
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PMID:A broad spectrum Kunitz type serine protease inhibitor secreted by the hookworm Ancylostoma ceylanicum. 1089 10

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