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)

The seminal plasma and sperm of fresh and stored poultry semen were analyzed for the presence of eight peptide hydrolase enzymes. Five enzymes: carboxypeptidase A, carboxypeptidase B, chymotrypsin, glycylglycylglycine hydrolase and pepsin were not present in either plasma or sperm. An aminopeptidase-like and a cathepsin-like activity were found in seminal plasma and sperm while a trypsin-like activity was found in sperm only. There was a significant difference between full sib groups with respect to aminopeptidase-like activity in fresh and stored plasma, while storage for 24 hours resulted in a significant increase in trypsin-like activity of sperm. The aminopeptidase-like activity of fresh sperm was positively correlated with duration and percent fertility of fresh semen, while neither cathepsin-like activity nor trypsin-like activity were correlated with fertility of fresh or stored semen except for a positive correlation between the cathepsin-like activity of fresh plasma and percent fertility of fresh semen.
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PMID:The activity of some peptide hydrolase enzymes in fresh and stored poultry semen from full sib groups of males and their relationship to fertility. 118 12

We compared the in vitro degradation of porcine and human insulin in the subcutaneous tissue of rat. The insulin degrading activity was largely confined to the 160000 X g supernatant fraction of subcutaneous tissue. The degradation of human insulin was approximately half that of porcine insulin in the supernatant fraction. The degradation of porcine insulin in subcutaneous tissue was inhibited by bacitracin, leupeptin, phosphoramidon, and Z-Gly-Pro-Leu-Gly, though the human insulin degradation was not. The degradation of both insulins was accelerated by glutathione. While the proteolytic enzyme activities of cathepsin-B and collagenase-like peptidase were detectable in subcutaneous tissue, chymotrypsin, elastase, kallikrein, alpha-thrombin, and trypsin activities were almost negligible. These in vitro studies suggest that human insulin is comparatively stable against proteolytic enzymes, probably collagenase-like peptidase or cathepsin-B, in the subcutaneous tissue, which support the in vivo evidence.
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PMID:Fate of porcine and human insulin at the subcutaneous injection site. II. In vitro degradation of insulins in the subcutaneous tissue of the rat. 240 62

As a possible mechanism for the absence of mitochondria-bindable hexokinase in the liver, the presence of a protease similar in action to chymotrypsin, which specifically eliminates the binding ability of the bindable hexokinase without changing its catalytic properties, was investigated in rat liver. The lysosomal fraction prepared from the liver converted the bindable hexokinase prepared from rat brain to the nonbindable form with little change in catalytic activity. The activity of such a "processing protease" was much lower in rat brain, where the bindable form is predominant. The processing activity cosedimented with lysosomal marker enzyme activities in the subcellular fractionation of livers from normal and Triton WR-1339-injected rats. A fair portion of the activity was detected in the lysosomes without disruption. The activity was maximal at pH 6.0-7.0, inactivated almost completely by tosylphenylalanine chloromethyl ketone, tosyllysine chloromethyl ketone, leupeptin, antipain, and chymostatin, and dependent on dithiothreitol and mercaptoethanol. These results suggest that a protease, properties of which are fairly similar to those of cathepsin M, may be involved in the post-translational processing of original bindable hexokinase to the nonbindable form in rat liver.
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PMID:Possible processing of mitochondria-bindable hexokinase to the nonbindable form by a lysosomal protease in rat liver. 330 31

Human leukocyte cathespin G strongly stimulates the rate of solubilization of human lung elastin by human leukocyte elastase. For instance, the elastolytic activity of an equimolar mixture of elastase and cathepsin G is more than 5 times higher than that of elastase alone. Optimal stimulation occurs only if cathepsin G and elastase act simultaneously on elastin. Potentiation of leukocyte elastase digestion of lung elastin may also be brought about by bovine alpha-chymotrypsin. This enzyme is about half as efficient as cathepsin G. Stimulation of leukocyte elastase activity by cathepsin G is about 3 times less pronounced with bovine ligamentum nuchae elastin than with human lung elastin. On the other hand, the elastolytic activity of porcine pancreatic elastase is only enhanced by 20 to 30% by cathepsin. Therefore, maximal potentiation of elastolysis occurs with the lung elastin/leukocyte elastase system. The pathologic relevance of these findings is discussed.
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PMID:Stimulation of the elastolytic activity of leukocyte elastase by leukocyte cathepsin G. 691 62

alpha 1-Antitrypsin (alpha 1-AT) is one of the major proteinase inhibitors in serum. Its primary physiological function is to inhibit neutrophil elastase activity in lung, but it also inhibits other serine proteases including trypsin, chymotrypsin, thrombin, and cathepsin. We have previously reported a novel alpha 1-AT, S-2 isoform, from rabbit that is induced up to 100-fold in the liver during acute inflammatory condition (Ray, B. K., Gao, X., and Ray, A. (1994) J. Biol. Chem. 269, 22080-22086). Here, we present evidence that the expression of this alpha 1-AT S-2 gene is also induced in lipopolysaccharide (LPS)-treated peripheral blood monocytes. From the cloned genomic DNA, we have identified a distal LPS-responsive enhancer located between -2438 and -1990 base pairs upstream of the transcription start site. In vitro DNA-binding studies demonstrated an interaction of an LPS-inducible NF-kappa B-like nuclear factor with a kappa B-element present in this enhancer region. Antibodies against p65 and p50 subunits of NF-kappa B supershifted the DNA-protein complex. A mutation of the NF-kappa B-binding element virtually abolished the LPS-responsive induction of the chimeric promoter in monocytic cells. Furthermore, overexpression of NF-kappa B induced the wild-type promoter activity. Taken together, these results demonstrated that during LPS-mediated inflammation, NF-kappa B/Rel family of transcription factors play a crucial role in the transcriptional induction of the inflammation responsive alpha 1-AT gene.
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PMID:Role of a distal enhancer containing a functional NF-kappa B-binding site in lipopolysaccharide-induced expression of a novel alpha 1-antitrypsin gene. 749 48

The alpha 1-macroglobulin-proteinase complex endocytosed into rat liver lysosomes was purified by a series of column chromatographic steps on concanavalin A-Sepharose, Sephacryl S-300, DEAE-cellulose and TSK gel DEAE-5PW columns. The complex contained no detectable alpha 2-macroglobulin. Studies on the substrate specificity indicated that the complex had tryptase-like activities towards various synthetic substrates, but no elastase, chymotrypsin, cathepsin-B and cathepsin-L activities. The proteinase activity was completely inhibited by di-isopropyl fluorophosphate, leupeptin and antipain, indicating that the proteinase bound to alpha 1-macroglobulin is a serine proteinase. Two protein bands (62 and 59 kDa) of the complex were labelled with [3H]diisopropyl fluorophosphate and both bands cross-reacted with anti-(mast-cell tryptase)antibody. These results suggest that mast-cell tryptase is a major targeting proteinase for alpha 1-macroglobulin in vivo. The main alpha-macroglobulin-proteinase complex in the adjuvant-treated rats was also the alpha 1-macroglobulin-tryptase complex, even though the plasma level of alpha 2-macroglobulin was elevated.
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PMID:Identification of targeting proteinase for rat alpha 1-macroglobulin in vivo. Mast-cell tryptase is a major component of the alpha 1-macroglobulin-proteinase complex endocytosed into rat liver lysosomes. 751 Apr 77

The permeabilities of thyrotropin-releasing hormone (TRH) and insulin as model peptides were examined to characterize the tracheal epithelial barrier in in vitro experiments using excised rabbit trachea. TRH was not metabolized during 150 min duration of tracheal permeation and the apparent permeability coefficient (Papp) for TRH was about 3 x 10(-7) cm/s. The tracheal permeability of TRH was increased about three times by 10 mM glycocholate as a permeation enhancer. Insulin showed a slight degradation during 150 min duration of tracheal permeation, the Papp for insulin was 7 x 10(-9) cm/s. The tracheal permeability of insulin was significantly increased by 10 mM glycocholate, 1 mM bestatin (aminopeptidase B and leucine aminopeptidase inhibitor), and 10,000 KIU/ml aprotinin (trypsin and chymotrypsin inhibitor). The peptidase activities of rabbit tracheal epithelium were found to be the following; di-peptidyl-aminopeptidase IV (DPP IV) > Leu-aminopeptidase > cathepsin-B > trypsin. These activities were significantly lower than those of jejunal mucosal tissues. These results suggest that the tracheal absorption of peptide drugs through the respiratory tract may contribute to the systemic delivery of these drugs following the pulmonary administration of these drugs by intratracheal insufflation and instillation.
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PMID:Effects of sodium glycocholate and protease inhibitors on permeability of TRH and insulin across rabbit trachea. 1081 42

Beyond the well-known antibacterial and beta-lactamase enzyme inhibiting properties of the different beta-lactam antibiotics and their modified derivatives there are a number of beta-lactam (azetidine-2-one) compounds possessing different biological activities. Most of them have been shown to inhibit a variety of cysteine or serine protease enzymes comprising plants, viruses, protozoa, bacteria and mammalian species. This review article covers the biologically active beta-lactam compounds but beta-lactam antibiotics or beta-lactamase inhibitors, and including a few chemically related gamma- or delta-lactams or azetidines presumably having the same site and mechanism of action. These include viral protease inhibitors, protozoan enzymes (e.g. cruzain, falcipain), plant enzymes (papain). Of the mammal enzymes the most important ones are cholesterol absorption inhibitors and human leucocyte (neutrophyle) elastase inhibitors, but mention must be made on thrombin, chymotrypsin, cathepsin, prostata specific antigen and tumor necrosis factor inhibitors, as potential future remedies of cardio vascular and inflammatory diseases.
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PMID:[Reactions of derivatives of beta-lactam antibiotics with non-antibacterial biological activity]. 1281 42

Protease activity was measured through the hydrolysis of synthetic amino acid esters in body fluids and tissues of guinea pigs, rats, mice, and humans. Significant in vitro activation was observed in serum and lung slices of sensitized guinea pigs on addition of the specific antigen. Increased proteolytic activity was also seen in reverse anaphylaxis. More marked activation occurred when guinea pig serum was treated with peptone and guinea pig or rat serum was treated with agar. Protease activation was demonstrated in specimens of human skin under the influence of a poison ivy extract or croton oil added in vitro. Urinary protease activity of guinea pigs increased significantly during the first hours of anaphylactic shock and very markedly in peptone shock. Peptone shock, elicited in mice pretreated with H. pertussis, was accompanied by a considerable increase in protease activity in the peritoneal fluid as compared with non-pretreated mice which were insensitive to peptone. Proteolytic activity resulting from the activation procedures was due to a number of proteases. The dominant substrate affinity and inhibition patterns suggest that serum and urine proteases are similar to but not identical with plasmin. Anaphylactic activation exhibited patterns different from those resulting from the action of anaphylactoid agents. Tissue enzymes are either of cathepsin- or chymotrypsin-type or mixtures of both. Some of the activated enzymes, although remarkably effective in hydrolyzing amino acid esters, show no activity on protein substrates. This does not justify, however, their designation as "esterases." They probably belong to the class of specific proteases acting only on a single or a small number of functionally significant protein substrates. There is at present sufficient evidence to prove not only that protease activation does occur in anaphylaxis and anaphylactoid conditions but also that it is an important component of the chain of reactions leading to the allergic response.
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PMID:Further studies on the role of proteases in the allergic reaction. 1377 89

The mouse genome contains a family of clan C1A proteases that appear to be restricted to rodents within Eutherian (placental) mammals. mRNA analysis has shown that these genes are expressed exclusively in placenta. Sequence analysis predicts that the expressed proteins will be functional and consequently it was proposed that this family of proteases may have evolved to perform subspecialized functions of the closely related protease, cathepsin L, that is expressed in placental tissues of all mammalian species. In the present study, it was shown that cathepsin P can be expressed in Pichia pastoris as an inactive zymogen that can be activated with proteinase K, chymotrypsin or pancreatic elastase at neutral pH. Unlike other mammalian cathepsins, cathepsin P could also be autoactivated at neutral pH, but not at acidic pH. The activated enzyme was capable of hydrolysing peptidyl substrates and the protein substrates azocasein and transferrin, with optimal activity at pH 6.5-7.5. Little activity could be detected at pH 5.0 and below. Salts such as Na2SO4 and hyaluronate stimulated the activity of the protease against peptidyl substrates. The properties of cathepsin P appear to be quite distinct from those of cathepsin L, indicating that the duplication that gave rise to cathepsin P has probably not yielded an enzyme that provides a subfunction of cathepsin L in rodents. It seems probable that cathepsin P has evolved to perform a function that is performed by an evolutionarily unrelated protease in other mammalian species.
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PMID:Expression and characterization of cathepsin P. 1462 93

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