EC:3.4.25.1 - FACTA Search

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Query: EC:3.4.25.1 (proteasome)
28,817 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A multicatalytic proteinase complex present in the skin secretion of Xenopus laevis was purified and its enzymatic activity towards natural and synthetic peptides was investigated. We identified three activities: i) a C-terminal deamidation enzyme activity which exhibited selectivity for the Asp-Phe-NH2 and Phe-Leu-NH2 motifs of cerulein, minigastrin Leu-enkephalinamide, (des-Tyr1)Leu-enkephalinamide and diaminobenzylthiocyanate-DVDERDVRGFASFLNH2 (DABTC-DR8kermit); ii) an endopeptidase activity that cleaves peptide bonds on the carboxyl side of hydrophobic amino acid residues such as Tyr-Gly of LHRH, Ile-Ala of PGLa and Leu-Ala of buccalin; iii) an enzyme activity that cleaves peptide bonds at the dibasic sites of peptides of the dynorphin family. The molecular weight determined by Sephacryl S-400 molecular sieve filtration indicated an M(r) about 600 kDa. The activities characterized here exhibit an optimal pH of about 7.4. The activities of the multicatalytic complex were differentially inhibited by the classical inhibitors of proteases.
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PMID:Isolation and properties of a multicatalytic proteinase complex from Xenopus laevis skin secretion. 755 6

Class I MHC (MHC-I) molecules present peptides derived from Ag that are processed in the cytosol. The proteasome is a multicatalytic protease complex that is present in the cytosol and has been implicated in cytosolic Ag processing. Novel dipeptide aldehydes were designed, synthesized, and demonstrated to specifically inhibit the chymotrypsin-like protease activity of isolated proteasomes, but produced relatively little inhibition of cathepsin B, a vacuolar cysteine protease. The inhibitors were membrane permeable and inhibited intracellular cleavage of a membrane-permeable fluorogenic substrate of the chymotrypsin-like proteasome activity. When a model Ag, OVA, was introduced into the cytoplasm of M12.B6 murine B cells by electroporation, the proteasome inhibitors blocked its processing for subsequent presentation by MHC-I molecules. The inhibitors had little effect on class II MHC processing of exogenous Ag. The potencies of different inhibitors for blockade of MHC-I Ag processing correlated directly with their potencies for inhibition of the chymotrypsin-like proteasome activity. In contrast, conventional inhibitors of vacuolar cysteine proteases (e.g., leupeptin and benzyloxycarbonyl-Phe-Ala-CHN2) had little effect on MHC-I processing or the chymotryspin-like activity of isolated proteasomes. These results directly demonstrate that inhibition of proteasome activity blocks MHC-I Ag processing, confirming a role for proteasomes in this pathway. Moreover, they suggest that the chymotrypsin-like activity of the proteasome may be of major importance to the cytosolic processing of at least some Ag.
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PMID:Novel dipeptide aldehydes are proteasome inhibitors and block the MHC-I antigen-processing pathway. 763 33

Evidence indicates that a component of the multicatalytic proteinase complex (MPC) that preferentially cleaves bonds after branched chain amino acids (BrAAP) is a major factor responsible for the protein-degrading activity of the MPC. We report here the synthesis of substrate-related peptidyl aldehydes that inhibit the activity of this component toward both synthetic peptide substrates and proteins. The most potent of the inhibitors, Cbz-Gly-Pro-Phe-leucinal (Cbz-GPFL-CHO) inhibits competitively with a Ki of 1.5 microM. The peptidyl aldehydes also inhibit the small neutral amino acid preferring and the peptidylglutamyl-peptide hydrolyzing activities of the MPC. The chymotrypsin-like activity is only weakly inhibited, and the trypsin-like activity is moderately activated. The importance of a Pro residue in the P3 position and a leucinal residue in the P1 position for inhibition of the BrAAP component is indicated by the finding that replacement of these residues by a glycine or phenylalaninal, respectively, markedly increases the Ki. Cbz-GPFL-CHO inhibited the BrAAP activity with the same Ki both before and after activation of this component by exposure of the MPC to 3,4-dichloroisocoumarin, suggesting that the peptidyl aldehyde is an effective inhibitor of both the overt and latent proteolytic activities of the MPC. Incubation of a human breast cancer cell line (MCF-7) in culture with the inhibitors of the BrAAP component led to an accumulation of ubiquitin-protein conjugates, indicating inhibition of the ubiquitin-dependent proteolytic pathway.
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PMID:Inhibition of the proteolytic activity of the multicatalytic proteinase complex (proteasome) by substrate-related peptidyl aldehydes. 796 80

The biochemical properties of heretofore uncharacterized extracellular proteases of rat interleukin-2-activated natural killer (A-NK) cells were investigated. Following p-aminobenzamidine- and D-phenylalanine-agarose affinity chromatography both trypsin- and chymotrypsin-like protease activities were found. Zymography revealed "trypsin-like" activities, with apparent molecular weights of approximately 42 kDa to 20.5 kDa, and "chymotrypsin-like" activities of approximately 27 kDa, to 22 kDa. These proteases might contribute to diverse NK cell functions, and the characteristics of these proteolytic activities are compared with those of granzymes of lytic granules and the proteasome of A-NK cells.
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PMID:Zymographic analysis of extracellular, released and cell-associated proteases of rat interleukin 2-activated natural killer (A-NK) cells. 805 9

An extracellular elastase, termed Myxococcus xanthus alkaline protease 1 (MAP1), has been purified from M. xanthus DK1622 culture supernatants by a combination of ion-exchange and affinity chromatographies. It consists of a single peptide chain of 39 kDa. The elastolytic activity was totally suppressed by 10 mM 1,10-phenanthroline and the enzyme may then be classified as a metalloprotease. Its pH optimum was estimated to be 8.2 with both elastin-orcein and succinyl-Ala3 p-nitroanilide as substrates. Despite its low pI (5.2), MAP1 was adsorbed on elastin at 80%, a result which privileges hydrophobic interactions between MAP1 and elastin rather than salt bridges, as for known basic elastases. About 80% of the original amidasic and elastolytic activities were conserved after a 30-min prior incubation of the enzyme at 40 degrees C; however, 70% of the amidasic activity is measured, instead of 15% for the elastolytic activity, after 30 min at 50 degrees C. Thermal denaturation at this temperature may prevent adsorption of the enzyme on elastin without any important change of the elastase structure. MAP1 readily hydrolyzes the Gly23-Phe24 bond in the oxidized insulin B chain; the peptide bonds Ala14-Leu15, Leu15-Tyr16, Phe24-Phe25, Phe25-Tyr26 are also cleaved, suggesting a primary specificity of the enzyme for hydrophobic or aromatic residues at the first amino acid towards the C-terminus from the cleavage site (P'1 position) [Schechter, I. & Berger, A. (1967) Biochem. Biophys. Res. Commun. 27, 157-162]. This hypothesis is consistent with the fact that Ala2-Phe-Ala and Ala3-Phe-Ala are hydrolyzed even though tri-alanine to hexa-alanine oligomers are not. The evidence of an elastase with the same molecular mass and pI as MAP1 is given during fruiting body development in submerged culture of M. xanthus. The fact that aromatic amino acids have been found to be the most representative of A-signal [Kuspa, A., Plamann, L. & Kaiser, D. (1992) J. Bacteriol. 174, 3319-3326] is consistent with the hypothesis that, regarding its specificity, MAP1 is likely to play a role in development of myxobacteria.
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PMID:Purification and characterization of an alkaline elastase from Myxococcus xanthus. 805 53

Diastereomeric peptide-esters (Ala-Ala-AA2-Phe-OMe, AA2 = Gly, D- or L-Ala, Pro, Phe, Lys, and Glu) have been used as substrates, and the kinetic constants (Kcat and Km) of the three alkaline proteases, subtilisin Carlsberg, alcalase, and Nagarse (subtilisin BPN') catalyzed ester-hydrolysis, were measured to investigate the selectivity of the enzyme-catalyzed peptide esterhydrolysis. All three proteases preferred the substrate which had a small side-chain at the s-2 site. Thus, the substrates with a bulky side-chain at the p-2 site such as Phe, Pro, Glu, and Lys, hydrolyzed with a rate of about one-tenth that of Ala at the p-2 site, and the Kcat decreased as the size of the p-2 amino acid residue increased. The diastereoselectivity of the alkaline protease-catalyzed hydrolysis of each diastereomeric pair depended on the size of the amino acid residue at the p-2 position of the substrate. The substrates with a bulky side-chain at the p-2 site hydrolyzed with higher diastereoselectivity than did the substrates with a small side-chain at the p-2 site. Molecular modeling of the enzyme-substrate complex show that: for the enzyme complexed with a substrate which has L-L-L-L configuration, each residue of the L-L-L-L tetrapeptide filled in and was completely enclosed by the cleft of the four subsites of the enzyme. The side-chains of the residues were identically positioned within the pocket of the binding-site. For the complex of enzyme with substrate of L-L-D-L, the side-chain of the D-amino acid residue was far away from the s-2 subsite of the enzyme, and had close contact with the side-chains of Leu-126 and Ile-107 of the enzyme.
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PMID:Investigating the s-2 subsite selectivity of alkaline proteases in hydrolysis of diastereo-peptide esters and molecular-modeling interpretation. 808 66

A previously undescribed high molecular mass protein (HMP) from human erythrocyte membranes was solubilized by Triton X-100 and purified on a calmodulin-agarose column in the presence of Ca2+. It was shown to have a native molecular mass of 522-560 kDa, comprised of a single subunit of a molecular mass of 28 kDa (p28). The protein is associated with the lipid bilayer rather than with the cytoskeletal component of the membrane. The purified HMP showed peptidase-hydrolyzing activity toward substrates containing hydrophobic amino acids at the P1 position of the P2-P1 cleavage site. The activity was inhibited by serine proteinase inhibitors (leupeptin, phenylmethansulfonyl fluoride) and chymotrypsin inhibitors in particular (chymostatin, N-tosyl-L-phenylalanine chloromethyl ketone). The enzyme exhibited maximal activity at slightly alkaline pH (7.5-8.5) and at 37 degrees C and was stimulated over a narrow range of SDS concentrations (maximal at 0.05%). HMP was found to cross-react in Western blots with an antibody raised against the rabbit multicatalytic proteinase. The single subunit of HMP therefore contains both the catalytic activity and a sequence necessary for its association into a multimeric complex. The properties of the human erythrocyte membrane HMP described indicate that it is a novel peptidase related to the ubiquitous multicatalytic proteinase.
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PMID:Characterization of a novel high molecular mass protein with peptidase activity purified from the human erythrocyte membrane by calmodulin affinity chromatography. 814 98

Cleavage of bonds after neutral amino acids by the multicatalytic proteinase complex (MPC) has been recently shown to be catalyzed by at least three distinct components [Orlowski, M., Cardozo, C., & Michaud, C. (1993) Biochemistry 32, 1563-1572]. One component, designated as chymotrypsin-like (ChT-L), cleaves peptide bonds on the carboxyl side of hydrophobic residues and is also active toward peptidyl-arylamide bonds. A second component, designated as branched-chain amino acid preferring (BrAAP), and a third component, designated as small neutral amino acid preferring (SNAAP), cleave preferentially bonds on the carboxyl side of branched-chain amino acids and between small neutral amino acids, respectively. Evidence indicates that the BrAAP component is a major factor responsible for degradation of protein by the MPC. The purpose of the present study was to identify the structural requirements that determine the involvement of these components in cleavage of peptides after different neutral amino acids. A series of substrates was synthesized with the aim of probing the role of residues beyond those flanking the scissile bond in directing substrates to defined catalytic sites. The data indicate that a proline or glycine residue in the P3 position directs the substrate to the catalytic site of the BrAAP component provided that a branched-chain amino acid is present in the P1 position. A proline residue in P3 is also important for involvement of the SNAAP component in substrate degradation. The presence of this residue interferes with substrate binding to the catalytic site of the ChT-L activity, even in the presence of a phenylalanine residue in the P1 position.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Evidence that the nature of amino acid residues in the P3 position directs substrates to distinct catalytic sites of the pituitary multicatalytic proteinase complex (proteasome). 820 82

The multicatalytic endopeptidase complex (proteasome) has multiple distinct peptidase activities. These activities have often been referred to as 'chymotrypsin-like', 'trypsin-like' and 'peptidylglutamyl-peptide hydrolase' activities according to the type of residue in the P1 position, although it is now clear that mammalian proteasomes have at least five distinct catalytic sites. In the present study, potential affinity-labelling reagents (peptidylchloromethanes, peptidyldiazomethanes, a peptidylfluoromethane and peptidylsulphonium salts) containing hydrophobic, basic or acidic amino acid residues in the P1 position have been tested for inhibition of the different activities of the rat liver proteinase complex. The results show that individual peptidase activities of proteasomes can be inhibited by a variety of peptidylchloromethanes and peptidyldiazomethanes. Although the rate of inactivation of proteasomes by even the most effective peptidylchloromethanes and peptidyldiazomethanes are often quite slow (k(obs)/[I] in the range 0.1-10 M-1 x s-1) compared with the reaction of similar compounds with some other proteinases, the results provide useful information concerning the specificity of the distinct catalytic centres of proteasomes, and some selective affinity-labelling reagents have been identified. Tyr-Gly-Arg-chloromethane was found to be a useful inhibitor of trypsin-like activity. Inhibition of the other peptidase activities was often incomplete, even after repeated addition of inhibitor, and it proved to be difficult to predict the effect of different reagents. For example, Cbz-Tyr-Ala-Glu-chloromethane was found to inhibit 'chymotrypsin-like' activity (assayed with Ala-Ala-Phe-7-amino-4-methylcoumarin or succinyl-Leu-Leu-Val-Tyr-7-amino-4-methylcoumarin), while the best inhibitors of 'peptidylglutamyl-peptide hydrolase' activities (assayed with benzyloxycarbonyl-Leu-Leu-Glu beta-naphthylamide) were peptidyldiazomethanes containing hydrophobic amino acid residues. These results suggest that the original nomenclature of proteasome activities is misleading, because the residue in the P1 position is not the only determinant of specificity.
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PMID:Reaction of proteasomes with peptidylchloromethanes and peptidyldiazomethanes. 828 57

A ubiquitin (Ub)/ATP-dependent proteolytic complex (26S proteasome) purified from rabbit skeletal muscle was dissociated into two subcomplexes, a 20S proteasome and a regulatory subunit complex, by preparative non-denaturing polyacrylamide gel electrophoresis (PAGE). The isolated regulatory subunit complex preparation gave a single broad band on analytical non-denaturing PAGE, and several bands ranging between 33 and 110 kDa on SDS-PAGE. This complex was found to consist of about 20 subunits on the basis of two-dimensional PAGE, the pattern of which appeared identical or very similar to that of the 33-110 kDa 26S proteasome subunits. The apparent molecular mass of the complex was estimated to be 1100 kDa by Ferguson plot analysis and also by Superose 6 gel filtration. Unlike the 26S proteasome, neither ATPase activity nor protease activities toward Suc-Leu-Leu-Val-Tyr-MCA, Boc-Phe-Ser-Arg-MCA, Z-Leu-Leu-Glu-beta NA, [14C]-casein, [125I]-lysozyme and Ub-[125I]-lysozyme were significantly detectable in the regulatory subunit complex. This complex was found to be capable of associating with itself in MgATP-dependent manner. These results suggest that a regulatory subunit complex dissociated from the 26S proteasome comprises all the higher molecular mass subunits of the 26S proteasome, and has no detectable ATPase and protease activities, although the homo-oligomerization occurs in an ATP-dependent fashion.
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PMID:Regulatory subunit complex dissociated from 26S proteasome: isolation and characterization. 854 9

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