EC:3.4.21.1 - FACTA Search

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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)

An in vitro normal human epidermal keratinocytes (NHEK) model was used to study and to characterize the protease stimulated by the mustards 2-chloroethyl ethyl sulphide (CEES), 2-chloro-N-(2-chloroethyl)-N-methylethanamine hydrochloride (nitrogen mustard, HN2), and Bis-2-chloroethyl sulfide (sulfur mustard, HD). The results obtained by using a chromozym (TRY) peptide substrate protease assay showed the optimum mustard concentration and time for protease stimulation to be about 200 microM CEES, 100 microM HN2 or HD, and 16 hours. The mustard-stimulated protease was membrane-bound, and was inhibited by adding a Ca2+ chelator EGTA (2 mM), BAPTA AM (50 microM) or a serine protease inhibitor diisopropyl fluoro-phosphate DFP (1 mM), or a protein synthesis inhibitor cycloheximide (10 microM) in the extracellular medium. These results suggest that one of the mechanisms of mustard toxicity is via the stimulation of a trypsin/chymotrypsin like serine protease, which is dependent on Ca2+ and new protein synthesis. Sodium dodecyl sulfate polyacrylamide gel electrophoresis revealed a mustard-stimulated approximately equal to 70-80 KDa protein band that was associated with protease activity which was inhibitable by EGTA, BAPTA, DFP or cycloheximide. This mustard-stimulated protein (protease) may serve as a diagnostic tool for mustard exposure as well as an assay for screening prospective antivesicant protease inhibitor drugs.
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PMID:Protease in normal human epidermal keratinocytes. 970 64

An enzyme activity capable of hydrolysing the neuroactive undecapeptide substance P (SP) between its Phe7-Phe8 residues was purified from the membrane-bound fraction of human spinal cords. The enzyme preparation yielded was compared with a previously described SP-hydrolysing enzyme from human cerebrospinal fluid (CSF) with regard to inhibition profile, protein chemical properties and kinetics. In addition, the results were compared with those of bovine pancreatic chymotrypsin (a serine protease that cleaves the carboxy-terminal side preferentially at hydrophobic amino acids). The SP peptidase activity was extracted from human spinal cords with 1% Triton X-100 in 20 mM Tris-HCI pH 7.8. After ion exchange chromatography (DEAE-Sepharose) where the enzyme activity was separated from other proteins by gradient elution, the pooled enzyme fraction was further purified by molecular sieving (Sephadex G-50). The enzyme activity was finally recovered by HPLC molecular sieving (Superdex 75 HR 10/30) using a new preparative system, AKTA-purifier, controlled by UNICORN software version 2.20.
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PMID:Purification of substance P endopeptidase (SPE) activity in human spinal cord and subsequent comparative studies with SPE in cerebrospinal fluid and with chymotrypsin. 1007 55

Alveolar type II cells secrete lung surfactant through exocytosis of lamellar bodies. We previously showed that the annexin II tetramer (Anx IIt) mediates the fusion of lamellar bodies with liposomes. The present study examined the possible involvement of membrane proteins in this process. Pre-treatment of lamellar bodies with trypsin and alpha-chymotrypsin reduced Anx IIt-mediated membrane fusion. With the use of an Anx IIt-conjugated Sepharose column, three Anx IIt-binding proteins with molecular weights of 67,000, 36,000 and 34,000 were isolated froM the Triton X-100 extract of bovine lung tissue membranes. These proteins were identified as annexins VI, II and IV by Western blot. The interaction of Anx IIt with annexins II and IV was confirmed by ligand blot assay. An EGTA-resistant membrane-bound annexin II was present in lung type II cells. Anx IIt preferentially hound to membranous annexin II compared with cytosolic annexin II of type II cells. With the use of immunofluorescence, annexin II was found to translocate from cytoplasm to plasma membranes in type II cells upon stimulation with phorbol 12-myristate 13-acetate. These results suggest that cytosolic annexin II may bind to membranous annexin II and form a protein-protein bridge to bring two membranes together.
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PMID:Calcium-dependent self-association of annexin II: a possible implication in exocytosis. 1037 3

We report the characterization of a novel serine protease of the chymotrypsin family, recently isolated by cDNA-representational difference analysis, as a gene overexpressed in pancreatic cancer. The 2.3-kb mRNA of the gene, named TMPRSS3, is strongly expressed in a subset of pancreatic cancer and various other cancer tissues, and its expression correlates with the metastatic potential of the clonal SUIT-2 pancreatic cancer cell lines. The deduced polypeptide sequence consists of 437 amino acids and exhibits all of the structural features characteristic of serine proteases with trypsin-like activity. TMPRSS3 is membrane bound with a NH2-terminal signal-anchor sequence and a glycosylated extracellular region containing the serine protease domain. Thus, TMPRSS3 is a novel membrane-bound serine protease overexpressed in cancer, which may be of importance for processes involved in metastasis formation and tumor invasion.
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PMID:A novel transmembrane serine protease (TMPRSS3) overexpressed in pancreatic cancer. 1082 29

The urokinase plasminogen activator receptor (uPAR) plays an important role in the migration of leukocytes. It occurs as a membrane-bound form that contains a glycosylphosphatidylinositol (GPI) anchor and also as a soluble form (suPAR) that lacks the GPI anchor. Recently, a sequence of amino acids, SRSRYLE, within the receptor has been found to become unmasked on uPA binding or chymotrypsin cleavage. Exposure of the epitope results in the activation of p56/p59(hck) kinase and chemotaxis of myelomonocytic cells. Using an epitope-tagged suPAR molecule, we found that both three-domain and two-domain suPAR promote the adhesion of differentiated THP-1 cells to fibronectin and vitronectin, indicating that suPAR can modify cell adhesion as well as cell migration. In addition, we found that the amino acid sequence RYLE, within the chemotactic peptide, is conserved across species and that alanine substitution of Tyr 92 decreased the ability of the peptide to activate p56/59(hck).
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PMID:Soluble urokinase receptor promotes cell adhesion and requires tyrosine-92 for activation of p56/59(hck). 1109 55

A peritrophin from the Spodoptera frugiperda peritrophic membrane (PM) and microvillar proteins from S. frugiperda anterior midgut cells were isolated and used to raise antibodies in a rabbit. These antibodies, as well as a Tenebrio molitor amylase antibody that cross-reacts with S. frugiperda amylases, and wheat-germ aglutinin were used in immunolocalization experiments performed with the aid of confocal fluorescence and immunogold techniques. The results showed that the peritrophin was secreted by anterior midgut columnar cells in vesicles pinched-off the microvilli (microapocrine secretion). The resulting double membrane vesicles become single membrane vesicles by membrane fusion, releasing peritrophin and part of the amylase and trypsin. The remaining membranes still containing microvillar proteins and membrane-bound amylase and trypsin are incorporated into a jelly-like material associated with PM. Calcofluor-treated larvae lacking a PM were shown to lose the decreasing gradient of trypsin and chymotrypsin observed along the midgut of control larvae. This gradient is thought to be formed by a countercurrent flux of fluid (in the space between PM and midgut cells) that powers enzyme recycling.
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PMID:The peritrophic membrane of Spodoptera frugiperda: secretion of peritrophins and role in immobilization and recycling digestive enzymes. 1137 53

The regulation of proline utilization in Escherichia coli involves the proline-dependent translocation of the PutA flavoprotein from the cytoplasm to a peripheral position on the membrane. In the cytoplasm, PutA represses transcription of the proline utilization (put) genes while membrane-bound PutA catalyzes the oxidation of L-proline to glutamate. The mechanism by which PutA switches from a DNA-binding protein to a membrane-bound enzyme involves a proline-induced conformational change that is characterized by the appearance of a 119-kDa fragment during limited proteolysis of proline-reduced PutA. To establish whether the FAD redox state is responsible for the proline-induced conformational change in PutA, we distinguished the effects that FAD reduction and proline analogue binding have on PutA conformation by limited chymotrypsin proteolysis. Controlled potentiometric proteolysis of PutA demonstrated that the formation of the 119-kDa band occurs at an E(m)(conf) value of -0.058 V (pH 7.5), which is within 20 mV of the E(m) value for FAD bound to PutA. The manipulation of the E(m)(conf) value by reconstitution of PutA with the FAD analogue, 5-deazaFAD, confirmed that the conformational change observed in the presence of proline is solely dependent on the FAD redox state. The proline analogue, L-tetrahydro-2-furoic acid (L-THFA), failed to elicit the formation of the 119-kDa fragment during chymotrypsin cleavage of PutA. Instead, a unique fragment of about 93-kDa was observed, indicating that a distinct PutA conformer is stabilized by L-THFA. Reduction of L-THFA-complexed PutA, however, regenerated the 119-kDa fragment showing that reduction of the FAD cofactor overrides conformational changes induced by L-THFA. Mapping of the protease susceptibility sites in PutA revealed that the conformational changes caused by FAD reduction and L-THFA binding are transmitted to domains outside the proline dehydrogenase active site.
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PMID:Flavin redox state triggers conformational changes in the PutA protein from Escherichia coli. 1273 89

Guanylin and uroguanylin are two novel peptides that activate membrane-bound guanylate cyclases found in the kidney and intestine, influencing fluid and electrolyte homeostasis by cyclic GMP. Their natriuretic and kaliuretic activities are well documented. Since guanylin is inactivated by chymotrypsin in vitro, experiments were designed to evaluate the role of chymotrypsin-like proteases in renal metabolism of guanylin. Using the isolated perfused rat kidney, guanylin and a recombinant derivative containing a lysine residue in the N-terminus of the native peptide was tested. There were three experimental groups. In the first group, lys-guanylin (0.1-2.5 microg/ml) was placed into perfusate reservoir. In the second group, chymostatin (6 microg/ml), a chymotrypsin inhibitor, was placed into solution. In the third group, after 30 min. of perfusion with chymostatin (6 microg/ml), guanylin (0.3 microg/ml) was placed into solution. A maximal decrease in fractional Na+ reabsorption (%TNa+) was achieved at 1.0 microg/ml of lys-guanylin (from 73.25+/-2.29 to 54.97+/-0.10, P<0.05). Lys-guanylin (1.0 microg/ml) also decreased fractional K+ reabsorption (%TK+) from 59.26+/-3.93 to 30.75+/-0.78 (P<0.05). Chymostatin had no detectable effects in electrolyte reabsorption in this assay. When introduced after chymostatin, guanylin lowered %TNa+ (from 81.2+/-1.86 to 72.6+/-2.45, P<0.05) and %TK+ (from 69.4+/-4.12 to 65.8+/-2.81, P<0.05). At this subthreshold concentration, guanylin alone lacks effects in %TNa+ or %TK+. Furthermore, the ability of both peptides to promote increases in intestinal fluid secretion was evaluated in the in vivo suckling mouse model. When administered per os, guanylin failed to stimulate intestinal secretion. When chymostatin was present in the test solution, guanylin induced intestinal secretion in this assay. In marked contrast, lys-guanylin alone induced diarrhoea in the suckling mouse. The present paper concludes that guanylin undergoes metabolism in target tissues such as the intestine and kidney and its lysine-containing analogue retains full biological activity.
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PMID:Guanylin and its lysine-containing analogue in the isolated perfused rat kidney: interaction with chymotrypsin inhibitor. 1275 25

Activities detectable in Streptococcus cremoris with the chymotrypsin substrate N-glutaryl-l-phenylalanine-4-nitroanilide and formerly designated endopeptidases P37 and P50 (F. A. Exterkate, Appl. Environ. Microbiol. 47:177-183, 1984) are both coupled peptidase reactions. These coupled reactions involve a membrane-bound, restricted l-alpha-glutamyl aminopeptidase which is responsible for the initial release of the glutaryl moiety. The subsequent reaction is catalyzed by either a so-called low-temperature or a high-temperature phenylalanyl aminopeptidase activity, both located at the outside surface of the membrane. Altered microenvironmental conditions created by the membrane-perturbing action of n-butanol or obtained by solubilization resulted in the removal of a restriction on the activity of l-alpha-glutamyl aminopeptidase and in a less efficient functioning of the coupled reactions; a long transient phase occurred before the steady state was reached. The results suggest that the in situ spatial organization is conducive to an efficient attuning of at least three peptidases which are located at the outer membrane surface and in the membrane. The possibility that peptidases in these locations exist as a cluster with physiological significance is discussed in relation to growth of S. cremoris in milk.
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PMID:Efficient Implementation of Consecutive Reactions by Peptidases at the Periphery of the Streptococcus cremoris Membrane. 1634 77

The cannibalistic denaturation of alpha-chymotrypsin (EC 3.4.21.1) around neutral pH can be eliminated by immobilization (insolubilization) of the enzyme or by inhibition by specific reversible inhibitors, but the high-pH denaturation cannot be. The denaturation of the immobilized enzyme at high pH follows first-order kinetics, just as the denaturation of the soluble enzyme does. These results lend credence to the description of the denaturation of chymotrypsin as cannibalistic around neutrality and due to a hydroxide ion reaction at high pH; this interpretation followed from kinetic arguments given in the previous article [Wu, H.-L., Wastell, A. & Bender, M. L. (1981) Proc. Natl. Acad. Sci. USA 78, 4116-4117]. Elimination of denaturation around neutrality by immobilization may be the reason why membrane-bound enzymes are so common in vivo.
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PMID:Elimination of cannibalistic denaturation by enzyme immobilization or inhibition. 1659 52

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