EC:3.4.24.27 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.24.27 (thermolysin)
1,894 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In this paper, we report the detection, purification and characterization of the first metalloprotease inhibitor (IMPI) from invertebrates. IMPI was purified from the hemolymph of last-instar larvae of Galleria mellonella by precipitation with trichloroacetic acid and heat followed by affinity chromatography on a thermolysin-Sepharose column and gel filtration or reverse-phase high-performance liquid chromatography. For the detection of inhibitor activity, a new azocoll assay was established. IMPI was only detectable in larvae that had been injected with bacterial or fungal provocators, suggesting that it is induced nonspecifically during the humoral immune response. Injection of larvae with IMPI rendered them resistant to thermolysin, in quantities that normally would be lethal for them. IMPI was shown to be specific for metalloproteases. The molecular mass of IMPI was determined by mass spectrometry to be 8360 Da. Purified IMPI was heterogeneous, owing to different degrees of glycosylation with hexose/hexosamine and deoxyhexose residues. Ten cysteine residues were found in the molecule, and these are presumed to form five disulfide bridges. The amino terminus was blocked, but a partial amino-acid sequence starting from the thermolysin cleavage site was determined; this sequence exhibited no similarity with other known proteins, suggesting that the IMPI represents a new type of protease inhibitor.
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PMID:Purification and characterization of an inducible metalloprotease inhibitor from the hemolymph of greater wax moth larvae, Galleria mellonella. 973 91

Three different types of peptides containing aziridine-2, 3-dicarboxylic acid (Azi) as an electrophilic alpha-amino acid at different positions within the peptide chain (type I, N-acylated aziridines with Azi as C-terminal amino acid; type II, N-unsubstituted aziridines with Azi as N-terminal amino acid; type III, N-acylated bispeptidyl derivatives of Azi) have been synthesized and tested as inhibitors of the cysteine proteases papain, cathepsins B, L, and H, and calpains I and II, as well as against several serine proteases, one aspartate, and one metalloprotease. All aziridinyl peptides are specific cysteine protease inhibitors. Papain and cathepsins B and L are inhibited irreversibly, whereas cathepsin H and calpains are inhibited in a non-time-dependent manner. Some compounds turned out to be substrates for serine proteases and for the metalloprotease thermolysin. Remarkable differences can be observed between the three different types of inhibitors concerning stereospecificity, pH dependency of inhibition, selectivity between different cysteine proteases, and the importance of a free carboxylic acid function at the aziridine ring for inhibition. Above all type II inhibitors, aza analogues of the well-known epoxysuccinyl peptides, are potent cysteine protease inhibitors. With the exception of BOC-Leu-Gly-(S, S+R,R)-Azi-(OEt)2 (28a+b), a highly selective and potent cathepsin L inhibitor, N-acylated aziridines of type I are weaker inhibitors than type II or type III compounds. The observed results can be explained by different binding modes of the three types of inhibitors with respect to their orientation in the S- and S'-binding sites of the enzymes. Furthermore, the presence of a protonated aziridine N modifies the binding mode of type II inhibitors.
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PMID:New peptidic cysteine protease inhibitors derived from the electrophilic alpha-amino acid aziridine-2,3-dicarboxylic acid. 1005 63

Protein stabilization by immobilization has been proposed to be most effective if the protein is attached to the carrier at that region where unfolding is initiated. To probe this hypothesis, we have studied the effects of site-specific immobilization on the thermal stability of mutants of the thermolysin-like protease from Bacillus stearothermophilus (TLP-ste). This enzyme was chosen because previous studies had revealed which parts of the molecule are likely to be involved in the early steps of thermal unfolding. Cysteine residues were introduced by site-directed mutagenesis into various positions of a cysteine-free variant of TLP-ste. The mutant enzymes were immobilized in a site-specific manner onto Activated Thiol-Sepharose. Two mutants (T56C, S65C) having their cysteine in the proposed unfolding region of TLP-ste showed a 9- and 12-fold increase in half-lives at 75 degrees C due to immobilization. The stabilization by immobilization was even larger (33-fold) for the T56C/S65C double mutant enzyme. In contrast, mutants containing cysteines in other parts of the TLP-ste molecule (N181C, S218C, T299C) showed only small increases in half-lives due to immobilization (maximum 2.5-fold). Thus, the stabilization obtained by immobilization was strongly dependent on the site of attachment. It was largest when TLP-ste was fixed to the carrier through its postulated unfolding region. The concept of the unfolding region may be of general use for the design of strategies to stabilize proteins.
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PMID:Probing the unfolding region in a thermolysin-like protease by site-specific immobilization. 1038 69

The most prevalent allergen from olive tree pollen, Ole e 1, consists of a single polymorphic polypeptide chain of 145 amino acids which includes six cysteine residues at positions 19, 22, 43, 78, 90 and 131. By using an homogeneous form of the allergen expressed in Pichia pastoris, the array of the disulfide bridges has been elucidated. Specific proteolysis with thermolysin and reverse-phase HPLC separation of the peptides allowed the determination of the disulfide bond between Cys43 and Cys78. Another thermolytic product, which contained three peptides linked by the remaining four cysteines, was digested with Glu-specific staphylococcal V8 protease and the products isolated by reverse-phase HPLC. Amino acid compositions and Edman degradation of the peptide products indicated the presence of the disulfide bonds at Cys19-Cys90 and Cys22-Cys131. These data can help in the analysis of the three-dimensional structure of the protein as well as in studies of its allergenic determinants.
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PMID:Assignment of the disulfide bonds of Ole e 1, a major allergen of olive tree pollen involved in fertilization. 1066 57

Recombinant human osteoprotegerin chimera is a 90-kDa protein containing a human IgG Fc domain fused to human osteoprotegerin. The molecule is a dimer linked by two intermolecular disulfide bonds and contains eleven intramolecular disulfide bonds per monomer. A cysteine-rich region in osteoprotegerin contains nine disulfide bridges homologous to the cysteine-rich signature structure of the tumor necrosis factor receptor/nerve growth factor receptor superfamily. In this report, we have developed peptide mapping procedures suitable to generate disulfide-containing peptides for disulfide structure assignment of the fusion molecule. The methods employed included proteolytic digestion using endoproteinases Glu-C and Lys-C in combination followed by LC-MS analyses. Disulfide linkages of peptide fragments containing a single disulfide bond were assigned by sequence analysis via detection of (phenylthiohydantoinyl) cystine and/or by MS analysis. Disulfide bonds of a large, core fragment containing three peptide sequences linked by four disulfides were assigned after generation of smaller disulfide-linked peptides by a secondary thermolysin digestion. Disulfide structures of peptide fragments containing two disulfide bonds were assigned using matrix-assisted laser desorption ionization mass spectrometry with postsource decay. Both the inter- and intramolecular disulfide linkages of the chimeric dimer were confirmed.
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PMID:Development of disulfide peptide mapping and determination of disulfide structure of recombinant human osteoprotegerin chimera produced in Escherichia coli. 1068 54

Immobilization of proteins usually leads to random orientation of the molecules on the surface of the carrier material, whereby mechanistic interpretations of changes in properties, such as thermal stability, become very difficult. Recently, we have prepared several mutant enzymes of the thermolysin-like neutral protease from Bacillus stearothermophilus, containing cysteine residues in different positions on the surface of the protein molecule. These enzymes allowed site-specific immobilization to Activated Thiol-Sepharose and showed that stabilization effects strongly depend on the position of attachment [Mansfeld, Vriend, Van den Burg, Eijsink and Ulbrich-Hofmann (1999) Biochemistry 38, 8240-8245]. The greatest stabilization was achieved after immobilization of the mutant enzymes S65C and T56C/S65C within the structural region (positions 56-69) where unfolding is initiated. In this study thermal inactivation kinetics of these two mutant enzymes, as well as those of the pseudo-wild-type enzyme and thermolysin, were compared for different types of immobilization. Besides site-specific immobilization via thiol groups, the enzymes were bound randomly via their amino groups or by mixed-type binding. The basic matrix was Sepharose 4B in all carriers. Whereas the enzymes bound site-specifically to Activated Thiol-Sepharose showed clear first-order inactivation kinetics like the soluble enzymes, the other immobilized enzyme preparations were characterized by distinct biphasic inactivation kinetics reflecting the heterogeneity of enzyme molecules on the carrier with respect to thermal unfolding. Site-specific binding resulted in stronger stabilization than the mixed binding type. However, immobilization to a highly functionalized carrier via amino groups increased stability further, suggesting that multiple fixation outside of the unfolding region 56-65 is able to increase stability of the enzyme molecules additionally.
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PMID:Site-specific and random immobilization of thermolysin-like proteases reflected in the thermal inactivation kinetics. 1111 91

A nonhemorrhagic proteinase B-20 from the venom of Bitis arietans has been purified to apparent electrophoretic homogeneity by chromatography on Sephadex G-100, Q-Sepharose, and CM-cellulose. It has a molecular weight of 20 k Da as determined by size exclusion chromatography on Sephadex G-100 and migrated as a single 20-k Da band on SDS polyacrylamide. It has an optimum pH of 6-8 and is inactive at pH 4.0. EDTA and 1,10-phenanthroline strongly inhibited the enzyme suggesting it is a metalloenzyme. Also it is inhibited by antipain but is unaffected by trasylol, antitrypsin, and pepsptatin. Colombin, an identified active component of Aristolochia albida used in the treatment of snake poisoning, did not inhibit the protease activity. It lost over 90% of its activity in the presence of 0.5 microM Hg(2+) but the inhibition was completely blocked in the presence of 10 microM mercaptoethanol implicating sulfhydryl groups in the catalytic entity of the protein. The activity was also inhibited competitively by glutathione and cysteine with inhibition binding constants K(i) of 240 and 40 microM, respectively. The enzyme is unaffected by several divalent cations but activated by 1 mM Fe(3+). It had a prolyl endopeptidase and thermolysin-like activity. The enzyme displayed a fast acting alpha-fibrinolytic and delayed gamma-fibrinolytic activity when tested on human fibrinogen. The relevance of these findings is discussed.
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PMID:A novel nonhemorragic protease from the African puff adder (Bitis arietans) venom. 1167 50

The reactions of oxidized glutathione generated from endogenous glutathione by the addition of ascorbic acid (AA) prior to dough mixing on free thiol groups of gluten proteins have been investigated. A small amount of (35)S-labeled glutathione was added as a tracer to identify the reaction products of GSSG and free protein thiols by radioactivity measurement. First, gluten was isolated from the dough, then the gliadins were extracted, and residual glutenin was partially hydrolyzed with thermolysin. After preseparation by gel permeation chromatography, the fractions with the highest radioactivity were separated by high-performance liquid chromatography. Radioactive peptides were identified, isolated, sequenced, and assigned to amino acid sequences of gluten protein components. The isolated peptides contained exclusively the cysteine residues C(b) and C(x) of low molecular weight subunits of glutenin, which are supposed to be highly reactive in forming intermolecular disulfide bonds. From these results it can be assumed that the cysteine residues C(b) and C(x) of the low molecular weight subunits of glutenin are at least partly present in the thiol form in flour. During dough mixing they are converted to protein-protein disulfides or glutathione-protein mixed disulfides by thiol/disulfide interchange reactions. Oxidized glutathione necessary for this reaction is generated from glutathione by the action of AA. These results are in accordance with the major hypothesis about the mechanism of action of AA.
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PMID:Effect of ascorbic acid in dough: reaction of oxidized glutathione with reactive thiol groups of wheat glutelin. 1290 52

The determination of the disulfide pairings of SETI-II, a trypsin inhibitor isolated from Sechium edule, is described herein. The inhibitor contains 31 amino acid residues per mol, 6 of which are cysteine. Forty-five nmol (160 microg) of SETI-II was hydrolyzed with 20 microg thermolysin for 48 hr at 45 degrees C, and peptides were separated by reverse phase high performance liquid chromatography (RP-HPLC). The major products were identified by amino acid composition, Edman degradation, and on the basis of the sequence of the inhibitor. The disulfide bridge pairings and (yields) are: Cys1-Cys4 (79%), Cys2-Cys5 (21%) and Cys3-Cys6 (43%). When the reduced inhibitor was reoxidized with glutathione reduced form (GSH)/glutathione oxidized form (GSSG) at pH 8.5 for 3 hr, full activity was recovered. These data show that disulfide bridge pairing and oxidation can be determined at nanomole levels and that sensitive and quantitative Edman degradation can eliminate the final time- and material-consuming step of disulfide determinations by eliminating the need to purify and cleave each peptide containing a disulfide bridge.
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PMID:Determination and reoxidation of the disulfide bridges of a squash-type trypsin inhibitor from Sechium edule seeds. 1532 86

Our experimental purpose is to probe the structure(s) of the chorionic proteinase inhibitor and its cDNA sequence(s) and to develop the application of safe medicines for protection of human and other animal bodies from pathogenic microbe attacks. In this study, chorionic proteinase inhibitor protein was isolated, sequenced and used to base the design of PCR primers, which were then used to amplify DNA using RT-PCR. A cDNA clone of the protein which inhibited the activities of serine proteinases and thermolysin was obtained on the basis of mRNA extracted from ovarian tissue of dace, Tribolodon hakonensis, and the deduced amino acid sequence was determined. Chorionic proteinase inhibitor (TribSPI) peptides of about 9.0 kDa (TribSPI) and 14 kDa (TribSPI-S) were purified from vitelline envelope extracts by thermolysin-immobilized affinity-chromatography. The cloned TribSPI cDNA was 1806 bp in length, and the open reading flame (ORF) was 915 bp encoding a protein of 305 amino acid residues. The inhibitor protein had a molecular mass of 33,550 daltons and was composed of five similar domains. Each domain contained eight cysteine residues, and it's deduced amino acid sequence was only 33 approximately 34% identical to those of human and porcine antileukoproteinases (hALP and pALP, respectively). A possible binding-site for serine proteinases, Arg-Ile, was contained in three domains.
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PMID:Nucleotide and protein sequences of a proteinase inhibitor from the vitelline envelope of dace (Tribolodon hakonensis) eggs. 1555 37

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