EC:3.2.1.17 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.2.1.17 (lysozyme)
21,489 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

An inhibitory protein for the 20S proteasome (also known as macropain, the multicatalytic proteinase complex and 20S proteinase) has been purified from bovine red blood cells. The inhibitor has an apparent molecular weight of 31,000 on SDS-PAGE and appears to form multimers under nondenaturing conditions. This protein inhibited all three of the putatively distinct catalytic activities of proteasome A (the active form of the proteinase) characterized by the hydrolysis of synthetic peptides such as Z-VLR-MNA, Z-GGL-AMC or Suc-LLVY-AMC and Z-LLE-beta NA. The inhibitor also prevented the hydrolysis of large protein substrates such as casein, lysozyme and bovine serum albumin. Proteasome L (the latent form of the proteinase) does not degrade these large protein substrates, but does hydrolyze the three synthetic peptides at rates similar to those by proteasome A. The inhibitor inhibited only two of these peptidase activities of proteasome L (hydrolysis of Z-GGL-AMC and of Z-LLE-beta NA or Suc-LLVY-AMC); it had no effect on the hydrolysis of Z-VLR-MNA. The inhibitor was specific for inhibition of the proteasome and had no effect on the activity of any other proteinase tested including trypsin, chymotrypsin, papain, subtilisin and both isoforms of calpain. Kinetic analysis indicates that the inhibitor interacted with the proteasome by a mechanism involving tight-binding. Because the proteasome appears to be a key component of the ATP/ubiquitin-dependent pathway of intracellular protein degradation, the inhibitor may represent an important regulatory protein of this pathway.
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PMID:Purification and characterization of a protein inhibitor of the 20S proteasome (macropain). 131 59

Proteins conjugated to ubiquitin are degraded by a 26S (1500-kDa) proteolytic complex that, in reticulocyte extracts, can be formed by the association of three factors: CF-1, CF-2, and CF-3. One of these factors, CF-3, has been shown to be the proteasome, a 650-kDa multicatalytic protease complex. We have purified a 250-kDa inhibitor of the proteasome and shown that it corresponds to CF-2. In the presence or absence of ATP, this factor inhibited hydrolysis by the proteasome of both fluorogenic tetrapeptides and protein substrates. When the inhibitor, proteasome, and CF-1 were incubated together in the presence of ATP and Mg2+, degradation of ubiquitin-125I-lysozyme occurred. Both the inhibitory activity and the ability to reconstitute ubiquitin-125I-lysozyme degradation were very labile at 42 degrees C, but both activities were stabilized by ATP or a nonhydrolyzable ATP analog. SDS/PAGE indicated that the 250-kDa inhibitor fraction contained a major subunit of 40 kDa (plus some minor bands). The 125I-labeled inhibitor and purified proteasome formed a complex. When CF-1, ATP, and Mg2+ were also present, the 125I-labeled inhibitor along with the proteasome formed a complex of 1500 kDa. The inhibitor (CF-2) thus appears to be an ATP-binding component that regulates proteolysis within the 1500-kDa complex.
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PMID:An ATP-stabilized inhibitor of the proteasome is a component of the 1500-kDa ubiquitin conjugate-degrading complex. 131 79

It is known that two types of high-molecular-mass protease complexes are present in the cytosol of mammalian cells; a 20S latent multicatalytic proteinase named the proteasome, and a large proteolytic complex with an apparent sedimentation coefficient of 26S that catalyzes ATP-dependent breakdown of proteins conjugated with ubiquitin. In this work, we first demonstrated that a low concentration of SDS was required for activation of the latent proteasome, whereas the 26S complex degraded substrates for proteasomes in the absence of SDS. Moreover, the 26S complex was greatly stabilized in the presence of 2 mM ATP and 20% glycerol. Based on these characteristics, we next devised a novel procedure for purification of the 26S proteolytic complexes from human kidney. In this procedure, the proteolytic complexes were precipitated from cytoplasmic extracts by ultracentrifugation for 5 h at 105000 x g, and the large 26S complexes were clearly separated from the 20S proteasomes by molecular-sieve chromatography on a Biogel A-1.5 m column. The 26S enzyme was then purified to apparent homogeneity by successive chromatographies on hydroxyapatite and Q Sepharose, then by glycerol density-gradient centrifugation. Electrophoretic and immunochemical analyses showed that the purified human 26S complex consisted of multiple subunits of proteasomes with molecular masses of 21-31 kDa and 13-15 protein components ranging in molecular mass over 35-110 kDa, which were directly associated with the proteasome. The purified 26S proteolytic complex degraded 125I-labeled lysozyme-ubiquitin conjugates in an ATP-dependent manner. The 26S enzyme also showed high ATPase activity, which was copurified with the complex. Vanadate and hemin strongly inhibited not only ATP cleavage, but also ATP-dependent breakdown of ubiquitinligated proteins, suggesting that the 26S complex hydrolyzes ATP and ubiquitinated proteins by closely linked mechanisms. These findings indicate that the 26S complex consists of a proteasome with proteolytic function and multiple other components including an ATPase that regulates energy-dependent, ubiquitin-mediated protein degradation.
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PMID:Demonstration that a human 26S proteolytic complex consists of a proteasome and multiple associated protein components and hydrolyzes ATP and ubiquitin-ligated proteins by closely linked mechanisms. 131 98

A protein that greatly stimulates the multiple peptidase activities of the 20 S proteasome (also known as macropain, the multicatalytic protease complex, and 20 S protease) has been purified from bovine red blood cells and from bovine heart. The activator protein was a single polypeptide with an apparent molecular weight of 28,000, as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, and had a native molecular weight of approximately 180,000. This protein, which we have termed PA28, regulated all three of the putatively distinct peptidase activities displayed by each of two functionally different forms of the proteasome. This regulation usually included both an increase in the maximal reaction velocity and a decrease in the concentration of substrate required for half-maximal velocity and indicated that PA28 acted as a positive allosteric effector of the proteasome. PA28 failed, however, to stimulate the hydrolysis of large protein substrates such as casein and lysozyme. These results suggested that the hydrolysis of protein substrates occurred at a site or sites distinct from those that hydrolyzed small peptides and that the regulation of the two processes could be uncoupled. Evidence for direct binding of PA28 to the proteasome was obtained by glycerol density gradient centrifugation. PA28 may play an important regulatory role in intracellular proteolytic pathways mediated by the proteasome.
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PMID:Identification, purification, and characterization of a protein activator (PA28) of the 20 S proteasome (macropain). 158 32

Mammalian cells contain two large proteolytic complexes, the 650-kDa proteasome (or multicatalytic protease) and the 1500-kDa (26 S) Ubiquitin-conjugate-degrading enzyme. Since the proteasome is also required for the ATP-dependent degradation of ubiquitinated proteins, we tested whether it may be a component of the larger complex. The proteasome normally is soluble in 38% ammonium sulfate. However, after preincubation of reticulocyte extracts with ATP, several proteasome activities appeared in the 38% ammonium sulfate pellet, including the ability to degrade hydrophobic peptides and 14C-casein. Also, following preincubation with ATP, the precipitable fraction could degrade 125I-lysozyme-ubiquitin (Ub) conjugates. The activities were not present after incubation without ATP or with a nonmetabolizable ATP analog. Nondenaturing gel electrophoresis indicated the ATP-dependent appearance of a new band which degraded proteasome substrates, and reacted with an anti-proteasome monoclonal antibody on Western blot. This new band appeared larger than the proteasome and migrated similarly to the larger Ub-conjugate-degrading complex. The formation of the larger complex required factor(s) present in the 38% ammonium sulfate pellet and either the 40-80% fraction or the purified proteasome from reticulocytes or muscle. After complex formation, hydrolysis of Ub-protein conjugates and also the non-ubiquitinated substrate, casein, was stimulated severalfold by ATP, but non-metabolizable ATP analogs had little or no effect. Thus, the proteasome corresponds to component CF-3 of Ganoth et al. (Ganoth, D., Leshinisky, E., Eytan, E., and Hershkov, A. (1989) J. Biol. Chem. 263 12412-12419) and undergoes an energy-dependent association with other factors to form the 1500-kDa, ATP-requiring proteolytic complex.
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PMID:The proteasome (multicatalytic protease) is a component of the 1500-kDa proteolytic complex which degrades ubiquitin-conjugated proteins. 218 Sep 50

Eukaryotic cells contain a 700-kDa proteolytic complex (the "proteasome" or multicatalytic endopeptidase complex), whose role in intracellular protein breakdown is unclear. It has been suggested that the proteasome functions in the rapid degradation of oxidant-damaged proteins and in the ATP-dependent proteolytic pathway. To test these possibilities, oxidant-damaged hemoglobin and albumin were produced by treating hemoglobin and albumin with phenylhydrazine, with hydroxyl radicals, or with both hydroxyl and superoxide radicals. After oxidant damage, these proteins were degraded more rapidly in erythrocyte extracts and also by the purified proteasome. However, complete removal of proteasomes from these extracts by immunoprecipitation (or inhibitors of its proteolytic activity) did not reduce the breakdown of oxidant-damaged hemoglobin and decreased degradation of hydroxyl- and superoxide-treated proteins by only 30-40%. Thus, erythrocytes must contain another proteolytic system for degradation of oxidant-damaged proteins. In contrast, immunoprecipitation of proteasomes with polyclonal or monoclonal antibodies prevented the ATP/ubiquitin-dependent degradation of lysozyme and also blocked the ATP-stimulated degradation of ubiquitin-conjugated lysozyme in reticulocyte and skeletal muscle extracts. These data indicate a critical role of the proteasome in the degradation of ubiquitin-conjugated proteins and suggest that the proteasome is associated with or is a component of the larger ubiquitin-conjugate-degrading enzyme complex.
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PMID:Involvement of the proteasome in various degradative processes in mammalian cells. 253 95

A ubiquitin/ATP-dependent proteinase complex (26 S proteasome) was highly purified from rabbit skeletal muscle. The purified 26 S proteasome easily dissociated into a 20 S proteasome and a regulatory subunit complex on non-denaturing PAGE. By using cleavable and non-cleavable cross-linkers, it was revealed that the 26 S proteasome exists in two isoforms: one (D complex) consists of the 20 S proteasome and the regulatory subunit complex in the ratio of one to two, while the other (C complex) exists in an equal molar ratio. Molecular masses of the former and the latter isoforms were estimated to be 1,700 kDa and 1,400 kDa, respectively, by gel filtration, and 2,400 kDa and 1,400 kDa, respectively, by Ferguson plot analysis. Furthermore, both isoforms efficiently hydrolyzed Suc-Leu-Leu-Val-Tyr-MCA and ubiquitin-conjugated [125I]lysozyme. These results suggest that the D and C complexes are active proteinase complexes, most probably corresponding to the dumbbell-like and mushroom-like (or space capsule-like) molecules, respectively.
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PMID:Different ratios in 20 S proteasomes and regulatory subunit complexes in two isoforms of the 26 S proteasome purified from rabbit skeletal muscle. 825 98

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

A metalloendopeptidase (MEP) isolated from rabbit liver microsomes with substrate specificity for peptides containing Arg at the P1 and P4 positions has recently proved to be identical to soluble angiotensin-binding protein present in the cytosol. Here we describe the peptide-degrading specificity of MEP, determined using various bioactive peptides and novel fluorogenic substrates for the enzyme. MEP degraded oligopeptides, including bradykinin, alpha-neoendorphin, bovine adrenal medulla dodecapeptide, substance P, bombesin, neurotensin, and alpha-endorphin, but not polypeptides such as reduced lysozyme and histone H4, hence, MEP probably belongs to the family of endo-oligopeptidases. It cleaved most preferentially at the -Phe-Ser- bond of bradykinin (kcat/Km = 2.8 x 10(4) M-1.S-1) but did not cleave high molecular weight and low molecular weight kininogens, the precursors of bradykinin. MEP did not cleave angiotensin I, dynorphin A 1-13, somatostatin, and luteinizing hormone-releasing hormone, some of which are good substrates for metalloendopeptidase-24.15, metalloendopeptidase-24.16, N-arginine dibasic convertase, and yeast endopeptidase-24.15 related peptidase. An active site-directed inhibitor of metalloendopeptidase-24.15, N-[1-(R,S)-carboxyl-3-phenylpropyl]-Ala-Ala-Phe-p-aminobenzoate also had no effects on the amidolytic activity of MEP. Based on the cleavage sites of bioactive peptides and processing sites of vitamin K-dependent proproteins, intramolecularly quenched fluorogenic peptide substrates were newly synthesized. Among the thirteen substrates used, the most reactive was 2-aminobenzoyl-Ala-Arg-Val-Arg-Arg-Ala- Asn-Ser-2,4-dinitroanilinoethylamide (kcat/Km = 9.3 x 10(5) M-1.S-1). An angiotensin antagonist, [Sar1, Ala8]-angiotensin II, inhibited hydrolysis of the substrate by MEP in a competitive manner (Kl = 7.6 microM). MEP cleaved oligopeptides even on the carboxyl side of proline residue and these peptides are resistant to hydrolysis by the cytosol-derived proteasome, therefore MEP may participate in the catabolism of oligopeptides in the cytosol, together with other endo-oligopeptidases.
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PMID:Substrate specificity of rabbit liver metalloendopeptidase and its new fluorogenic peptide substrates. 857 4

ATP-dependent proteolysis of 125I-labeled human alpha-globin, bovine alpha-lactalbumin, bovine serum albumin, or chicken lysozyme was assessed in a rabbit reticulocyte extract supplemented with ATP, excess ubiquitin, and variable amounts of ubiquitin aldehyde (Ubal), an inhibitor of many ubiquitin-protein isopeptidases. Low concentrations (0.8 microM) of Ubal increased the ATP-dependent degradation of 125I-alpha-globin by approximately 30% after 2 h at 37 degrees C, had little effect on 125I-lysozyme turnover, and decreased 125I-alpha-lactalbumin or 125I-albumin degradation by approximately 20%. The ATP-dependent degradation of all substrates was inhibited by high concentrations (> 3 microM) of Ubal throughout the incubation (15 min to 2 h); after 2 h, this inhibition ranged from 15% for 125I-alpha-globin to approximately 85% for 125I-alpha-lactalbumin and 125I-albumin. Levels of ubiquitin-125I-protein conjugates were increased significantly with Ubal; with > or = 8.0 microM Ubal, high molecular mass multiubiquitinated conjugates were particularly evident for 125I-alpha-globin and 125I-alpha-lactalbumin. These mixtures also accumulated ubiquitin conjugates with sizes expected for di- through pentaubiquitin oligomers. The results are consistent with the following proposed events: The ATP-dependent degradation of 125I-alpha-lactalbumin or 125I-albumin is probably mediated almost exclusively through polyubiquitinated intermediates. High Ubal concentrations inhibit an isopeptidase(s) which normally disassembles "unanchored" polyubiquitin chains that remain after substrate degradation by the 26S proteasome; these chains accumulate to inhibit further conjugate degradation. Much of the ATP-dependent degradation of 125I-alpha-globin and, to a lesser degree, 125I-lysozyme may occur through alternative structures where ubiquitin monomers or short oligomers are ligated to one or more substrate lysines. For 125I-alpha-globin, even low concentrations of Ubal effectively inhibit deubiquitination of these conjugates to enhance alpha-globin degradation.
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PMID:Differential effects of ubiquitin aldehyde on ubiquitin and ATP-dependent protein degradation. 871 81

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