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)

This study analysed the effect of Schistosoma japonicum egg antigens (SEA) on the activation of lymphocytes from naive mice. T cells were found to be unaffected by SEA. B cells, however, were activated by SEA without participation of adherent cells such as macrophages. B-cell activating factor(s) in SEA were distributed into a fraction of M(r) 120,000 and a fraction of M(r) 650,000 by gel filtration. However, a fraction of M(r) 120,000 demonstrated the presence of a limited number of components by polyacrylamide gel electrophoresis (PAGE) under non-denaturing conditions. These activating factor(s) were destroyed by peroxidase oxidation, heat treatment, chymotrypsin and trypsin digestion. These results indicate that the B-cell activating factor(s) in SEA contain both carbohydrate and protein. IgM antibodies were detected in the culture supernatant of SEA-activated B cells after 48 hr in culture, but IgG antibodies were undetected in culture. These antibodies did not react with SEA but reacted with sheep, horse, mouse red blood cells, carbonic anhydrase and autoantigens in myelinated nerve fibres of cerebrum as well as luminal surface and parietal cells of the stomach of naive mice. Thus our data demonstrated that SEA directly stimulates naive B cells to produce antibodies against heterophile and autologous antigens.
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PMID:Schistosoma japonicum soluble egg antigens activate naive B cells to produce antibodies: definition of parasite mechanisms of immune deviation. 834 98

CD23 is a multifunctional molecule expressed by cells of lymphoid, myeloid and hematopoietic lineages. As a cell surface molecule CD23 acts both as a low-affinity receptor for IgE (Fc epsilon RII) and as a cell adhesion molecule. CD23 can undergo autoproteolysis to release soluble 37-25-kDa CD23 (s-CD23) molecules with a range of cytokine activities. Here we show a causal link between the two apparently disparate functions of autoproteolysis and cell adhesion. The Epstein-Barr virus-transformed B cell line RPMI-8866 formed macroscopic cell clusters solely via CD23. Cell adhesion was inhibited by mAb to CD23 and by IgE. Cell adhesion was also dependent on serum as cells grown in serum-free media failed to form clusters. In serum-free conditions cell adhesion could be induced by the addition of not only 10% FCS but also s-CD23. As s-CD23 is reported to possess proteolytic activity we screened a range of proteases to determine whether they also could induce cell adhesion in serum-free medium. It was found that chymotrypsin and elastase induced cell:cell adhesion in RPMI-8866 cells. The same panel of proteases were screened against a range of CD23-positive (Jijoye, AF-10, T2, U937, ICH-1) and CD23-negative (RPMI-8226, U266, MOLT-4, Ramos) cell lines. It was found that chymotrypsin and elastase induce cell adhesion only in cells expressing CD23. Peptide mapping studies showed that chymotrypsin and elastase cleaved immunoprecipitated CD23 near the same site by which 37-kDa s-CD23 is released (Ala 80). Serum demonstrated no proteolytic activity towards CD23. However, it was found that cells grown in serum-free medium released 25-kDa s-CD23 without the need for prior cleavage at the 37-kDa cleavage site. To confirm the role of proteolysis in CD23-mediated cell adhesion we screened a range of protease inhibitors for their ability to antagonize this process. It was found that tosyl-lysine chloromethyl ketone inhibited CD23-mediated cell adhesion. Lactoperoxidase treatment, which inhibits CD23 cleavage, also inhibited cell adhesion. Addition of chymotrypsin and elastase to lactoperoxidase-treated cells induced cell adhesion. From these data we propose that intact CD23 has no demonstrable role in cell adhesion; instead, the portion of CD23 remaining on the cell surface following cleavage appears to mediate cell adhesion.
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PMID:CD23-mediated homotypic cell adhesion: the role of proteolysis. 837 Mar 88

A method using cytochrome c as the substrate of proteinases trypsin, chymotrypsin and subtilisin based on peroxidase effect of the formed haem octapeptide, which is much higher than that of cytochrome c, is described. The octapeptide is degraded by excess hydrogen peroxide and the competition between oxidation of guaiacol catalyzed by the octapeptide and octapeptide degradation leads under experimental conditions to rapid production of a stable colour. Absorption at 476 nm is proportional to proteolytic activity. The method was standardized using the Anson test for proteolytic activity with haemoglobin as a substrate.
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PMID:Proteolytic activity assay based on enhanced peroxidase effect of hydrolyzed cytochrome c. 839 22

An Escherichia coli tyrosine auxotroph (MR1) with an inducible lacZ was generated by mutagenesis. Of several tyrosine derivatives tested, only m-fluorotyrosine supported the growth of this mutant and allowed synthesis of active beta-galactosidase. The pH profiles of the beta-galactosidase that was obtained when this mutant was grown on m-fluorotyrosine (81.5% of the tyrosine was replaced by m-fluorotyrosine) indicated that a tyrosine may be acting as a general acid-base catalyst and that it (or another tyrosine with the same pKa) may be involved in substrate binding. Inactivation of normal beta-galactosidase by treatment with lactoperoxidase in the presence of I- did not affect affinity-column binding, but incubation of this iodinated beta-galactosidase with chymotrypsin caused a rapid degradation of a portion of the treated enzyme equal to the portion of the activity that was lost. A study with 125I- showed that the rapid degradation was mainly confined to iodinated molecules of enzyme. These studies indicate that iodination of beta-galactosidase does not affect binding ability, but causes the enzyme to lose catalytic activity and become susceptible to chymotryptic action. Chloroperoxidase also caused rapid inactivation of normal beta-galactosidase in the presence of Br- or I-, but there was a lag followed by a slow inactivation in the presence of Cl-.
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PMID:The properties of beta-galactosidases (Escherichia coli) with halogenated tyrosines. 839 70

A simple, solid-phase assay usable for the detection of endothelin-converting enzyme activity and inhibitors has been developed. It uses a multimeric peptide immobilized on microtiter plates that is able to specifically recognize the Big Endothelin fragment 16-32 derivatized with biotin. This fragment is cleaved between residues 21-22 by alpha-chymotrypsin with almost the same proteolysis rate as Big Endothelin, and after enzyme treatment it does not bind to the multimeric peptide adsorbed on the microtiter plates. The amount of uncleaved peptide bound to the plate is detected by subsequent treatment with streptavidin conjugated to peroxidase, followed by a chromogenic reaction. Model inhibitor profiles generated for alpha-chymotrypsin, a protease known to convert Big Endothelin in endothelin, demonstrated the utility of this assay as a rapid high-throughput aid in the study of Big Endothelin enzymatic processing and possibly in the identification of putative enzyme inhibitors.
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PMID:Peptide-based assay for the identification of endothelin-converting enzyme inhibitors. 848 40

Activated polymorphonuclear neutrophils (PMNs) have been shown to be cytotoxic to rat hepatic parenchymal cells in vitro. This cytotoxicity could be observed without direct cell-cell contact, since the conditioned medium from PMNs activated with formyl-Met-Leu-Phe (fMLP) was effective in hepatocyte killing. To identify the toxic factor(s) released by PMNs, degranulation was induced by fMLP in PMNs pretreated with cytochalasin B. The contents released from the phagocytes were subjected to gel filtration on a Sephadex G-100 column. Resulting fractions were tested for cytotoxicity to isolated hepatocytes by using release of alanine aminotransferase as a marker for hepatocyte injury. Cytotoxicity was associated with fractions containing cathepsin G and elastase and not with other fractions, including those containing myeloperoxidase. The former two enzymes were purified to homogeneity with a carboxymethyl cellulose column. Each of these enzymes demonstrated concentration-dependent cytotoxicity to hepatocytes at concentrations > 2 microgram/mL. Moreover, they exhibited an additive cytotoxic effect. Effective concentrations for the combined cathepsin G and elastase in the incubation mixture were similar to the concentrations of these enzymes in PMN-conditioned medium that produced cytotoxicity to hepatocytes. Cytotoxicity of either purified enzyme or of conditioned medium could be prevented by plasma alpha-1-antitrypsin or soybean trypsin-chymotrypsin inhibitor, which were also potent inhibitors of enzymic activity of both cathepsin G and elastase. By contrast, the serine protease inhibitors, aprotinin and 4-(2-aminoethyl)-benzene-sulfonyl fluoride, were less effective in inhibiting cathepsin G and elastase activities as well as cytotoxicity caused by the purified proteases or PMN-conditioned medium. These results support the hypothesis that cathepsin G and elastase are important mediators of hepatic parenchymal cell killing produced by activated PMNs in vitro.
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PMID:Identification of factors from rat neutrophils responsible for cytotoxicity to isolated hepatocytes. 865 57

Pig thyroid plasma membranes contain a Ca(2+)-dependent NADPH:O2 oxidoreductase, the thyroid NADPH-dependent H2O2 generator. This provided the H2O2 for the peroxidase-catalysed synthesis of thyroid hormones. The effect of the tervalent arsenical, phenylarsine oxide (PAO), on the NADPH oxidase was studied. PAO caused two directly related dose-dependent effects with similar half-effect concentrations of PAO (3 nmol of PAO/mg of protein): (i) partial inactivation of H2O2 formation by the Ca(2+)-stimulated enzyme, and (ii) desensitization of the enzyme activity to Ca2+. PAO had no effect on membranes that had been Ca(2+)-desensitized by alpha-chymotrypsin treatment. The NADPH oxidase in membranes treated with excess PAO had the same Vmax with and without Ca2+. This value was half the Vmax of the native enzyme. However, the K(m) for NADPH determined with Ca2+ (18 microM, identical with that of the native enzyme) was approx, one-third of the K(m) measured without Ca2+, showing the direct action of Ca2+ on the PAO-enzyme complex. PAO had the same effects, partial inactivation and Ca2+ desensitization, on the NADPH: ferricyanide oxidoreductase activity of the NADPH oxidase, suggesting that PAO acts on the flavodehydrogenase entity of the enzyme. Both partial inactivation and Ca2+ desensitization were completely and specifically reversed by 2.3-dimercaptopropanol, partly reversed by dithiothreitol and not reversed by 2-mercaptoethanol, indicating that PAO binds to vicinal thiol groups. These results suggest that thiol groups are involved in the control of thyroid NADPH oxidase by Ca2+; PAO bound to vicinal thiols might alter the structure of the enzyme so that electron transfer occurs without Ca2+ but more slowly.
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PMID:Regulation of the thyroid NADPH-dependent H2O2 generator by Ca2+: studies with phenylarsine oxide in thyroid plasma membrane. 902 Aug 70

Bovine lactoferrin binds to a 60 kDa heat shock protein of Helicobacter pylori. Binding ability was related to human immunoglobulin G because bovine lactoferrin binding proteins were isolated by extraction of cell surface associated proteins with distilled water, applied on IgG-Sepharose and nickel sulphate chelate affinity chromatography. Binding was demonstrated by Western blot after purified protein was digested with alpha-chymotrypsin and incubated with peroxidase-labeled bovine lactoferrin. Binding was inhibited by bovine lactoferrin, lactose, rhamnose, galactose, and two iron-containing proteins, ferritin and haptoglobin. Helicobacter pylori binds ferritin and haptoglobin via charge or hydrophobic interactions because this binding was not inhibited by specific and various glycoproteins or carbohydrates. Carbohydrate moieties of bovine lactoferrin molecules seem to be involved in binding because glycoproteins with similar carbohydrate structures strongly inhibited binding. Scatchard plot analysis of the binding of peroxidase-labeled bovine lactoferrin to H. pylori cells yielded a kd 2.88 x 10(-6) M. In addition, binding of H. pylori cells to bovine lactoferrin was enhanced when bacteria treated with pepsin or alpha-chymotrypsin after isolation from iron-restricted and iron-containing media.
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PMID:Cryptic domains of a 60 kDa heat shock protein of Helicobacter pylori bound to bovine lactoferrin. 911 43

The cDNA encoding the smallest membrane-anchoring subunit (QPs3) of bovine heart mitochondrial succinate-ubiquinone reductase was cloned and sequenced. This cDNA is 1330 base pairs long with an open reading frame of 474 base pairs that encodes the 103 amino acid residues of mature QPs3 and a 55-amino acid residue presequence. The cDNA insert has an 820-base pair long 3'-untranslated region, including a poly(A) tail. The molecular mass of QPs3, deduced from the nucleotide sequence, is 10,989 Da. QPs3 is a very hydrophobic protein; the hydropathy plot of the amino acid sequence reveals three transmembrane helices. Previous photoaffinity labeling studies of succinate-ubiquinone reductase, using 3-azido-2-methyl-5-methoxy[3H]-6-decyl-1,4-benzoquinone ([3H]azido-Q), identified QPs3 as one of the putative Q-binding proteins in this reductase. An azido-Q-linked peptide with a retention time of 66 min is obtained by high performance liquid chromatography of the chymotrypsin digest of carboxymethylated and succinylated [3H]azido-Q-labeled QPs3 purified from labeled succinate-ubiquinone reductase by a procedure involving phenyl-Sepharose 4B column chromatography, preparative SDS-polyacrylamide gel electrophoresis, and acetone precipitation. The amino acid sequence of this peptide is NH2-L-N-P-C-S-A-M-D-Y-COOH, corresponding to residues 29-37. The structure of QPs3 in the inner mitochondrial membrane is proposed based on the hydropathy profile of the amino acid sequence, on the predicted tendencies to form alpha-helices and beta-sheets, and on immunobinding of Fab' fragmenthorseradish peroxidase conjugates prepared from antibodies against two synthetic peptides, corresponding to the NH2 terminus region and the loop connecting helices 2 and 3 of QPs3, in mitoplasts and submitochondrial particles. The ubiquinone-binding domain in the proposed model of QPs3 is probably located at the end of transmembrane helix 1 toward the C-side of the mitochondrial inner membrane.
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PMID:The smallest membrane anchoring subunit (QPs3) of bovine heart mitochondrial succinate-ubiquinone reductase. Cloning, sequencing, topology, and Q-binding domain. 921 43

Five stains of Bifidobacterium bifidum (ATCC 11863 and 29591, and NCFB 1453, 1454, 1455) were examined for production of bacteriocins in MRS broth with 0.05% cysteine. Only strain NCFB 1454 excreted a bacteriocin into the broth: it was designated bifidocin B. Bifidocin B was sensitive to several proteolytic enzymes (protease IV, pronase E, protease XVII, proteinase K, trypsin, alpha-chymotrypsin, papain, and pepsin), but was resistant to catalase, peroxidase, lipase, lysozyme, cellulase, ribonuclease A, and amylases. It was also resistant to organic solvents such as ethyl alcohol, acetone, hexane, chloroform, methanol, and ether, and to heating at 90 degrees C for 15, 30, and 60 min or at 121 degrees C for 15 min. Bifidocin B remained active after storage at -20 or -7 degrees C for 3 months and retained biological activity after exposure to pH values of 2 to 10. Bifidocin B was active against some food-borne pathogens and food spoilage bacteria such as Listeria, Enterococcus, Bacillus, Lactobacillus, Leuconostoc, and Pediococcus species but was not active against the other gram-positive and gram-negative bacteria tested. Bifidocin B was produced during exponential phase, reaching a maximum activity of 3,200 AU/ml at early stationary phase. Bifidocin B had a molecular mass of about 3.3 kDa as analyzed by Tricine-sodium dodecyl sulfate-polyacrylamide gel electrophoresis.
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PMID:Characterization and antimicrobial spectrum of bifidocin B, a bacteriocin produced by Bifidobacterium bifidum NCFB 1454. 970 52

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