Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.24.11 (CD10)
 9,792 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Intraperitoneal administration of leupeptin to rats induced a hemoglobin-hydrolyzing protease which was most active at pH 3.5 and was insensitive to pepstatin in various tissues such as the liver, kidney, and muscle, as observed previously in adult rat hepatocytes in primary culture (Tanaka, K., Ikegaki, N., and Ichihara, A. (1979) Biochem. Biophys. Res. Commun. 91, 102-107). The induced acidic protease was purified about 600-fold in 30% yield from rat liver by conventional chromatographic techniques. The purified enzyme appeared homogeneous by polyacrylamide gel electrophoresis in the presence or absence of sodium dodecyl sulfate and was a monomeric protein of Mr = 20,000. The enzyme appeared to be a glycoprotein because its induction was blocked by the addition of tunicamycin to cultures of hepatocytes and because the induced protease was absorbed on concanavalin A-Sepharose and eluted with methylglucoside. It seemed to be present in lysosomes and was fairly stable at various pH values and temperatures. It showed endopeptidase activity on various protein substrates, but scarcely hydrolyzed N-substituted derivatives of arginine. It did not hydrolyze esters, showed no aminopeptidase or carboxypeptidase activity, and did not inactivate glucose-6-phosphate dehydrogenase or aldolase. The enzyme appeared to be a thiol protease, since it was strongly inhibited by sulfhydryl-reactive compounds and N-( [N-(1-3-trans-carboxyoxiran-2-carbonyl)-L-leucyl]-agmatine and was not inhibited by reagents specific for carboxyl-, serine-, or metalloproteases. This induced protease could be separated from cathepsins B, D, and H by chromatography. The enzyme was similar to cathepsin L in chromatographic behavior, Mr and pI, but differed from the latter in stability and in its inability to inactivate some enzymes. These results suggest that it differs from any known proteases found previously in rat liver.
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PMID:Purification and characterization of hemoglobin-hydrolyzing acidic thiol protease induced by leupeptin in rat liver. 637 Oct 12

An aminoendopeptidase isolated from 2-day-old rat epidermis was purified to apparent homogeneity by the procedures of ammonium sulfate fractionation, DE-52 column chromatography, Sephadex G-200 gel filtration, and CM-52 and DEAE-Sepharose 6B column chromatography. Enzymatic activity was exhibited only in the presence of sulfhydryl compounds and further enhanced by addition of 5 mM EDTA. It was inhibited by p-chloromercuribenzoate, other sulfhydryl blocking reagents, and o-phenanthroline. The monomer form of the enzyme is Mr = 52,000 +/- 2,300 by sodium dodecyl sulfate-polyacrylamide gel electrophoresis analysis, but a native form was considered to be Mr = 400,000 +/- 26,000 having an isoelectric point of pH 5.25. Among synthetic substrates the enzyme hydrolyzed amino acid 2-naphthylamide derivatives and L-leucine amine (L-LeuNH2) most effectively. N-alpha-benzoyl-DL-arginine-2-naphthylamide (BANA) was the only endopeptidase substrate for the enzyme and a competitive inhibitor for its aminopeptidase activity. Protein substrates have not yet been found. The pH optimum is 7.5 and in a range of pH 6.5-7.5 it is stable at 37 degrees C for 30 min but loses about 50% of its activity at 50 degrees C.
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PMID:Purification and properties of aminoendopeptidase from rat epidermis. 638 76

Pteroylpolyglutamate hydrolase was isolated from rat intestinal mucosa and purified with the aid of affinity chromatography. The affinity ligand was poly-gamma-glutamic acid (Mr approximately 12,000) derived from Bacillus subtilis. The specific enzymatic activity was increased 2,000-fold over the 100,000 X g supernatant of the mucosal homogenate with a yield of 20%. Sephadex G-200 gel filtration yielded an estimated molecular mass of 80,000 daltons. The isoelectric point was pH 8.2. The pH optimum in acetate buffer containing 1 mM zinc was 4.5. The KM values for pteroylheptaglutamate and pteroyltriglutamate were 0.21 and 0.67 microM, respectively. Polyanionic compounds, poly-gamma-glutamic acid, dextran sulfate, and heparin were noncompetitive inhibitors. Studies of the time course of hydrolysis of synthetic [3H]pteroylheptaglutamate by three separate techniques demonstrated the appearance of [3H]pteroylmonoglutamate, synchronous with substrate cleavage. Intermediate pteroyloligoglutamates were not detected. An endopeptidase-like mode of hydrolysis was further established by identification of a hexaglutamyl peptide as the other reaction product.
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PMID:Isolation and characterization of pteroylpolyglutamate hydrolase from rat intestinal mucosa. 654 36

Cathepsin B was purified about 11,000-fold from monkey skeletal muscle by ammonium sulfate fractionation and sequential column chromatographies monitored by assaying of Z-Phe-Arg-MCA hydrolase activity. The purified enzyme gave a single protein band on SDS-polyacrylamide gel electrophoresis, and its molecular weight was estimated to be 24,000 by gel filtration. It had a pH optimum of 6.5, required a thiol reducing agent for activation, and was inhibited by various thiol protease inhibitors. These properties were similar to those reported for cathepsins B from other sources. Although the enzyme scarcely hydrolyzed ordinary proteins, such as casein, hemoglobin, and bovine serum albumin, it degraded myosin and actin among various myofibrillar proteins. These results strongly suggested that skeletal muscle cathepsin B may participate in the degradation of muscle proteins in vivo. In addition, cathepsin B was shown to hydrolyze various neuropeptides such as Leu-enkephalin, beta-neoendorphin, alpha-neoendorphin, dynorphin(1-13), and substance P. It appeared to act on these peptides mainly as a dipeptidyl carboxypeptidase, although not so rigorously, presumably due to its endopeptidase activity.
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PMID:Purification and characterization of cathepsin B from monkey skeletal muscle. 672 39

Bothropasin, one of the proteases from the venom of Bothrops jararaca active on casein, was isolated by ammonium sulfate precipitation, DEAE-cellulose and DEAE-Sephadex A-50 chromatographies and Sephadex G-100 column filtration. The preparation possessed no other detectable activities which are present in the crude venom. Addition of Ca2+ during purification stabilized the enzyme. The endopeptidase was inhibited by EDTA and EGTA; Ca2+ did not restore the activity of the inhibited enzyme. The material was homogeneous by polyacrylamide gel electrophoreses at different pH values, immunoprecipitation and crossed immunoelectrophoresis. By SDS-polyacrylamide gel electrophoresis the denatured and reduced enzyme had only a 48,000 molecular weight band. In the presence of 6 M guanidine-HCl and 0.1 M beta-mercaptoethanol the preparation showed a value of 49,870 by sedimentation equilibrium. The native tertiary structure of the protein is dependent on S-S and metal bonds. The denatured and reduced enzyme, in the presence of EDTA, showed a molecular weight of 37,300 by sedimentation equilibrium, a value which was also confirmed in SDS-polyacrylamide gel electrophoresis. The enzyme hydrolyzed five peptide bonds: His-Leu (5-6), His-Leu(10-11), Ala-Leu(14-15), Tyr-Leu(16-17) and Phe-Phe(24-25) in the B-chain of oxidized insulin.
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PMID:Isolation and characterization of a proteolytic enzyme from the venom of the snake Bothrops jararaca (Jararaca). 681 60

A proline dipeptidase (EC 3.4.13.9) from guinea pig brain was purified to over 90% homogeneity by a combination of ammonium sulfate fractionation, DEAE-cellulose chromatography, calcium phosphate-cellulose chromatography, chromatofocusing, and gel filtration on Sephadex G-200. A purification factor of 2718-fold was obtained with a yield of 7%. The purified enzyme was found to have an apparent molecular weight of 132,000 and to consist of two dissimilar subunits of molecular weights 64,000 and 68,000. The substrate specificity of the enzyme is not that of a strict proline dipeptidase. Although it preferentially hydrolyzes proline dipeptides (Leu-Pro) it also hydrolyzes prolyl dipeptides (Pro-Leu) and dipeptides not containing proline (Leu-Leu). The purified enzyme preparation exhibited weak aminoacylproline aminopeptidase activity against Arg-Pro-Pro but it did not exhibit any post-proline dipeptidyl aminopeptidase, post-proline cleaving endopeptidase, proline iminopeptidase, prolyl carboxypeptidase or carboxypeptidase P activities when tested with a large variety of peptides and arylamides. With all of the proline and prolyl dipeptides examined the enzyme exhibited biphasic kinetics (two distinct slopes on Lineweaver-Burk plots). However, with Leu-Leu as substrate normal Michaelis-Menten kinetics were obeyed.
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PMID:The purification and characterization of a proline dipeptidase from guinea pig brain. 685 81

Four aminopeptidase isozymes (AMP1-AMP4) and an endopeptidase (ENP) from maize have been purified by ammonium sulfate fractionation, DEAE-Sephadex ionexchange chromatography, and Sephadex G-150 gel filtration. Hydroxylapatite chromatography further purified some of the peptidases. Comparisons of molecular weights, substrate specificities, and responses of peptidases to various reagents were made. The aminopeptidases varied in reactivities with the naphthylamide derivatives of amino acids. AMP1 and AMP3 were most active with the arginine and lysine derivatives; AMP2 was most active with the alanine and glycine derivatives and AMP4 was most active with the phenylalanine, tyrosine, leucine, and tryptophan derivatives. Molecular weights as determined by gel filtration on Sephadex G-150 were 92000, 86500, 83000, 61000, and 67600 for AMP1, AMP2, AMP3, AMP4, and ENP1, respectively. AMP2 had a molecular weight of 88000 as estimated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. AMP2 hydrolyzed the dipeptide derivatives, glycylglycyl-beta-naphthylamide and glycylphenylalanyl-beta-naphthylamide. Aminopeptidases were strongly inhibited by Zn2+, Cu2+, Hg2+, and p-mercuribenzoate. AMP1, AMP2, and AMP3 were inhibited by 1,10-phenanthroline, whereas AMP4 was not. AMP4 closely resembled aminopeptidases purified from barley grains and pea seeds. ENP was inhibited by p-mercuribenzoate and tosyllysine chloromethyl ketone.
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PMID:Comparative properties of genetically defined peptidases in maize. 700 Jan 81

With the aim of confirming our previous spectrophotometric binding studies ((1978) Eur. J. Biochem. 85, 345-350 and (1980) Eur. J. Biochem. 104, 249-254) and of ascertaining the full physiological significance of ion binding, we investigated the effects of ions and thiol reagents on the proteolysis of yeast phosphoglycerate kinase (ATP: 3-phospho-D-glycerate 1-phosphotransferase, EC 2.7.2.3). The single non-essential thiol of the enzyme was modified with 5,5'-dithiobis(2-nitrobenzoic acid) or 2-chloromercuri-4-nitrophenol. Both modifications greatly increased the susceptibility of the kinase to inactivation by trypsin or yeast proteinase A, when compared with that of the native kinase. Electrophoresis in sodium dodecyl sulfate (SDS) revealed that limited proteolysis had occurred. The time courses for the proteolysis and loss of catalytic activity were followed and the active and inactive fragments identified. The molecular masses of the major proteolytic fragments differed with the two endopeptidases. Substrate and non-substrate anions in a concentration-dependent fashion, protected the native and mercurial-labelled kinase from inactivation by trypsin or yeast proteinase A. However, Zn2+, in a concentration-dependent fashion, increased the susceptibility of the native kinase to inactivation by each endopeptidase. The time courses for the inactivation and for the proteolysis allowed the active and inactive fragments to be identified. Zn2+ decreased the rate of inactivation of the mercurial-labelled kinase by proteinase A. The effects of these ions were detected at concentrations compatible with occupancy of an anion binding site and a low affinity Zn2+ binding site, both of which have been indicated from our previous binding studies.
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PMID:The effects of anions, substrates, metal ions and sulfhydryl reagents on the proteolytic susceptibility of yeast phosphoglycerate kinase. 703

We have obtained evidence of thiol endopeptidases in the thyroid which are active in thyroglobulin degradation in vitro. Four pepstatin-insensitive endopeptidase fractions were distinguished in extracts of rabbit thyroids by gel filtration on Bio-Gel A-0.5m. An enzyme from one fraction was obtained in highly purified form and was found to be identical to cathepsin B described in other tissues. Endopeptidases in the three remaining fractions were designated as cathepsins 180K, 110K, and 45K, respectively, on the basis of their estimated molecular size. These were partially purified by either organomercurial affinity chromatography or DEAE-cellulose chromatography. They are identified as thiol endopeptidases on the basis of their sensitivity to inhibition by both leupeptin and the thiol-blocking agent iodoacetic acid and by their activation with the reducing agent glutathione. Each is distinguished from cathepsin B on the basis of molecular size and limited ability to hydrolyze benzoylarginine-2-naphthylamide. The action of the thiol endopeptidases on [125I]thyroglobulin was analyzed by polyacrylamide gel electrophoresis in sodium dodecyl sulfate or in sodium dodecyl sulfate and urea. In each instance, the initial peptide fragments were approximately 40-45K and 30K, with iodothyronine contents similar to or less than that of intact thyroglobulin. Later products of digestion than that of intact thyroglobulin. Later products of digestion included first, 20K peptides, which showed a low iodothyronine content, and finally, peptides of approximately 10K, which showed a 1.5-fold enrichment of T4 and T3 over that of intact thyroglobulin. Each of the thiol endopeptidases had a synergistic effect when incubated with cathepsin D and [125I]thyroglobulin. Among the products of such incubations were small iodopeptides, which were iodothyronine-enriched, and free T4, itself. The results show that thiol endopeptidases are present in the thyroid gland and are collectively as important as cathepsin D in the hydrolysis of thyroglobulin in vitro. The action of these enzymes must be considered along with that of cathepsin D in understanding thyroglobulin hydrolysis in vivo.
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PMID:Thyroglobulin degradation by thyroidal proteases: action of thiol endopeptidases in vitro. 704 63

To elucidate structure-function relationships of stromelysin-3, a putative matrix metalloproteinase originally identified at the tumor-stromal cell interface in breast carcinomas, the human cDNA was expressed in mammalian cells, and its products were isolated and characterized. In stably transfected cells, stromelysin-3 was recovered as a complex mixture of species ranging in size from approximately 20 to 65 kDa. Among these products, a major 45-kDa species with an N terminus of Phe98 and an intact C-terminal domain was identified as a true endopeptidase on the basis of its ability to cleave the bait region of alpha 2-macroglobulin between Phe684 and Tyr685, a site identical to that recognized by stromelysin-1. However, unlike stromelysin-1 or other members of the matrix metalloproteinase family, the mature form of stromelysin-3 was unable to hydrolyze a range of extracellular matrix molecules associated with either the basement membrane or interstitium. To probe for alternate substrates among tumor cell-derived products, purified stromelysin-3 was incubated with [35S]methionine-labeled medium conditioned by the breast cancer cell line, MCF-7. Under these conditions, a single, tumor cell-derived protein was hydrolyzed as assessed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and autoradiography. Following anion-exchange chromatography and preparative gel electrophoresis, the stromelysin-3 substrate was identified by N-terminal sequencing as the serine proteinase inhibitor, alpha 1-proteinase inhibitor. Further studies demonstrated that stromelysin-3 rapidly destroyed the antiproteolytic function of alpha 1-proteinase inhibitor by cleaving the antiproteinase at a distinct site between Ala350 and Met351 within the reactive-site loop. Together, these data not only demonstrate that human stromelysin-3 acts as a powerful endopeptidase with a restricted substrate specificity distinct from all other matrix metalloproteinases, but also serve to identify serine proteinase inhibitors as potential physiologic targets at sites of extracellular matrix remodeling.
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PMID:Hydrolytic inactivation of a breast carcinoma cell-derived serpin by human stromelysin-3. 752 94


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