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)

A protease of molecular weight 29,000 was isolated and purified using ammonium sulphate precipitation, lentil lectin-Sepharose affinity chromatography and DEAE-5PW ion-exchange chromatography. The protease had an unusual amino acid composition including 5% serine, 6% proline and 20% tyrosine. It was a glycoprotein containing 12-15% carbohydrate by weight. Activity was optimal at 40-45 degrees C using [3H]-acetyl casein substrate and at 40-55 degrees C using [3H]-acetyl enamel protein substrate. It was irreversibly denatured at 80 degrees C and above. With [3H]-acetyl casein the pH optimum was 8.0-8.5 and with [3H]-acetyl enamel protein it was 6.0-8.0. There was no activity below pH 5.0, and irreversible denaturation occurred at pH 4.0 and below. No autodegradation occurred with storage at 4 degrees C for 30 days at pH 7.0. Phenylmethylsulphonyl fluoride, mercuric chloride, and p-aminobenzoic acid completely inactivated the protease. The enzyme had no requirement for calcium. The sites of cleavage of the oxidized B-chain of insulin were the Cys-Gly and Arg-Gly bonds. The enzyme was therefore an endopeptidase. Cleavage of Na-benzoyl-L-arginine ethyl ester, but not Na-benzoyl-L-tyrosine ethyl ester, suggests that the protease is of the trypsin family. On the basis of its physical and enzymic properties the protease is a serine proteinase and, consistent with existing terminology, has been named proteinase pemB.
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PMID:Purification and properties of a protease from developing porcine dental enamel. 268 9

The nature and subcellular localization of the enzymic activities responsible for the production of the 20 kDa protein betagranin from its 100 kDa chromogranin-A-like precursor was investigated in transplantable insulinoma tissue. [35S]Methionine-labelled precursor was converted by lysed insulin-secretory granules into betagranin and one or more proteins of 47 kDa, via intermediates in the 60-65 kDa range. Lysosome-enriched fractions also processed the precursor, but not into the peptides found in vivo; other fractions, including those enriched in Golgi, were inactive. Conversion of the precursor by granules was quantitative and the products were stable. Inhibitor studies showed that processing occurred by initial endoproteolytic cleavage at sites marked by pairs of basic amino acids, followed by removal of these by carboxypeptidase H. The endopeptidase activity appeared to be a novel metalloenzyme, with a markedly acidic pH optimum (4.8-5). It was inhibited by alanyl-L-lysyl-L-arginyl chloromethane (K0.5 = 1.3 microM), but to a much lesser extent by inhibitor analogues of processing sites defined by single or unpaired basic amino acid residues, e.g. alanyl-L-norleucyl-L-arginylchloromethane (K0.5 greater than 100 microM), leupeptin (K0.5 = 150 microM) and antipain (K0.5 = 40 microM). p-Chloromercuribenzoate (K0.5 = 13 microM), Hg2+ (K0.5 = 16 microM), Zn2+ (K0.5 = 0.8 mM) and vanadate (K0.5 = 7 microM) also abolished activity, as did various anions (SCN- greater than I- greater than Cl- greater than SO4(2-). Group-specific inhibitors of serine, thiol and acidic endopeptidases were without effect. EDTA and CDTA (1,2-cyclohexanediaminetetra-acetic acid), but not 1,10-phenanthroline, abolished endoproteolytic activity. Several bivalent cations could restore activity after EDTA or CDTA inhibition, including Ca2+, Zn2+, Mn2+ and Sr2+; however, the ion of physiological importance appeared to be Ca2+ (K0.5 = 8 microM). The properties of the granule endopeptidase and its subcellular localization suggested that it is of importance in processing chromogranin A in the pancreatic beta-cell.
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PMID:Proteolytic processing of chromogranin A in purified insulin granules. Formation of a 20 kDa N-terminal fragment (betagranin) by the concerted action of a Ca2+-dependent endopeptidase and carboxypeptidase H (EC 3.4.17.10). 282 6

A nonlysosomal alkaline protease which degrades the oxidatively modified form of Escherichia coli glutamine synthetase has been purified to apparent homogeneity from rat and mouse liver acetone powders. Its molecular weight was determined to be 300,000 by Sephacryl S-300 gel filtration but results of further studies using high pressure liquid chromatography gel filtration suggest a value of 650,000. Examination of the subunit structure by sodium dodecyl sulfate-polyacrylamide gel electrophoresis showed multiple bands of molecular weights between 22,000 and 34,000. The alkaline protease was inhibited by thiol reagents. Phenylmethylsulfonyl fluoride, aprotinin, leupeptin, antipain, and chymostatin partially inhibited the protease. The inhibition by phenylmethylsulfonyl fluoride was prevented by dithiothreitol, and alpha 1-antitrypsin and soybean trypsin inhibitor did not inhibit. No inhibition was observed with metalloprotease inhibitors. The alkaline protease is active over a broad range of pH with optimum activity for the degradation of oxidized glutamine synthetase around pH 9.0. Its activity is not stimulated by MgATP. A study of the products of insulin B chain degradation demonstrated major cleavage sites at Gln13-Ala14, Leu15-Tyr16, Cys(SO3H)19-Gly20, Gln4-His5, and Leu17-Val18. Based on its endopeptidase activity and its inhibitor specificity, the alkaline protease should be classified as a cysteine proteinase. It appears to be distinct from previously described proteinases and is likely involved in nonlysosomal mechanisms of intracellular protein turnover.
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PMID:Purification of a liver alkaline protease which degrades oxidatively modified glutamine synthetase. Characterization as a high molecular weight cysteine proteinase. 286 41

A second endopeptidase is present in the renal microvillar membrane of rats that can be distinguished from endopeptidase-24.11 by its insensitivity to inhibition by phosphoramidon. The purification of this enzyme, referred to as endopeptidase-2, is described. The enzyme was efficiently released from the membrane by treatment with papain. The subsequent four steps depended on ion-exchange and gel-filtration chromatography. These steps were monitored by the hydrolysis of various substrates: 125I-insulin B chain (the normal assay substrate), benzoyl-L-tyrosyl-p-aminobenzoate (Bz-Tyr-pAB), azocasein and benzyloxycarbonyl-L-phenylalanyl-L-arginine 7-amino-4-methylcoumarylamide (Z-Phe-Arg-NMec). All four assays revealed comparable stepwise increases in activity in the main stages of the purification, although it was apparent that the last-named fluorogenic assay depended on traces of aminopeptidase activity present in the preparation. The Km for 125I-insulin B chain was 16 microM and that for Bz-Tyr-pAB was 4.7 mM. Several experimental approaches confirmed that both peptides were hydrolysed by the same enzyme. The pH optimum was 7.3. Phosphate buffers were inhibitory and shifted the optimum to above pH 9. Zinc was detected in the purified enzyme; EDTA and 1,10-phenanthroline were strongly inhibitory. SDS/polyacrylamide-gel electrophoresis revealed polypeptides of equal staining intensity of Mr 80,000 and 74,000 in reducing conditions. In non-reducing conditions a single band of apparent Mr 220,000 was seen. Gel filtration yielded an Mr of 436,000. These results are consistent with an oligomeric structure in which the alpha and beta chains are linked by disulphide bridges. Endopeptidase-2 hydrolysed a number of neuropeptides. Enkephalins resisted attack, only the heptapeptide [Met]enkephalin-Arg6-Phe7 being susceptible to slow hydrolysis. Luliberin (luteinizing-hormone-releasing hormone) and bradykinin were rapidly hydrolysed. Neurotensin was shown to be slowly attacked at the Tyr3-Glu4 bond. Thus the specificity appears to be limited to the hydrolysis of bonds involving the carboxy group of aromatic residues, provided that this P1 residue is extended by additional residues, at least to the P3' position. The relationship of this membrane metalloendopeptidase to mouse meprin and human 'PABA peptidase' is discussed.
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PMID:Proteins of the kidney microvillar membrane. Purification and properties of the phosphoramidon-insensitive endopeptidase ('endopeptidase-2') from rat kidney. 311 45

A basic proteinase was purified and characterized from the venom of Habu (Trimeresurus flavoviridis). Its molecular weight, isoelectric point and optimum pH were approx. 24,000, 9.2 and 9, respectively. Susceptibility to several reagents was examined. The proteinase had endopeptidase activity cleaving the Gly-Leu bond in synthetic peptides but no exopeptidase activity. It did not hydrolyze a peptide, Z-Gly-Pro-Leu-Gly-Pro, which had been a good substrate for the major proteinase in the venom. The proteinase cleaved oxidized insulin B chain at five positions: His10-Leu11, Ala14-Leu15, Tyr16-Leu17, Gly23-Phe24 and Phe24-Phe25. From the disappearance of intermediate peptides and the peptides accumulated, the order and the intensity of cleavage of these positions were determined, and the substrate specificity was compared with those hitherto described for hemorrhagic and nonhemorrhagic venom proteinases.
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PMID:Purification, characterization and substrate specificity of a basic proteinase in the venom of habu (Trimeresurus flavoviridis). 330 26

The nature of the endoproteolytic activity involved in the post-translational processing of proinsulin has been investigated in rat insulinoma tissue. 125I-proinsulin was converted by lysed insulin-secretory granules into insulin via an intermediate form identified as des-dibasic-proinsulin. This activity co-localized with immunoreactive (endogenous) insulin and carboxypeptidase H upon subcellular fractionation of the tissue, indicating a secretory-granular location. Under optimized conditions, conversion was quantitative. Inhibitor studies demonstrated that processing occurred by a reaction sequence involving cleavage on the C-terminal side of the pairs of basic amino acids, with subsequent removal of the newly exposed basic residues by carboxypeptidase H. Endoproteolytic activity was abolished by EDTA and CDTA (1,2-cyclohexanediaminetetra-acetic acid), but not by 1,10-phenanthroline or by group-specific inhibitors of serine, thiol or acidic proteinases. Inhibition by EDTA and CDTA could be reversed by both Ca2+ and Zn2+, although the former appeared to be the ion of physiological importance. Addition of Ca2+ in the absence of chelators stimulated endoproteinase activity, with a maximal effect at 5 mM, a concentration consistent with the intragranular environment. Similarly the pH optimum of 5.5 coincides with the prevailing intragranular pH. Together these properties suggest that the Ca2+-dependent endopeptidase described here is involved in vivo in the proteolytic processing of proinsulin.
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PMID:Proteolytic conversion of proinsulin into insulin. Identification of a Ca2+-dependent acidic endopeptidase in isolated insulin-secretory granules. 331 7

A two-chain polypeptide, which corresponds to amino acid residues 115-143 and 144-184(185) of bovine serum albumin, connected to each other by a disulfide bridge, potentiated the effects of insulin on glucose transport and glucose metabolism in isolated rat adipocytes. Although the peptide alone had little activity, it shifted the concentration-response curves of insulin-stimulated D-[1-14C]glucose oxidation, 2-deoxyglucose transport, and lipid synthesis from D-[U-14C]glucose to lower insulin concentrations. It also increased the maximal responses of these parameters to insulin. However, it did not affect insulin binding to adipocytes. The peptide protected insulin considerably from degradation, but this effect alone cannot account for its effect in increasing the maximal responses to the hormone, and even when degradation of a submaximal concentration of insulin was suppressed by bacitracin, the peptide still had an enhancing effect. These results suggest not only that the peptide influences a step distal to receptor-mediated insulin binding but also that inhibition of insulin degradation alone cannot explain its total effect. The peptide lost its insulin-stimulating activity completely when it was further digested with V8 or lysine-specific endopeptidase, or when it was reduced and then carboxamidomethylated or oxidized with performic acid. Similar active tryptic fragments were obtained from human and rat albumins. Insulin-stimulating peptides should be useful in studies on the mechanisms of insulin action including both the sensitivities and responsiveness of target cells to the hormone.
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PMID:Studies on the biological activity of an insulin-stimulating peptide from a tryptic digest of bovine serum albumin. 352 9

Neutral metalloendopeptidase enzymes were identified and partially characterized in the brush-border membranes of rat small intestinal mucosal cells using insulin B chain and glutaryl-trialanine-4-methoxy-beta-naphthylamide as substrates. Three different molecular species of endopeptidase were identified by disc gel electrophoresis. These enzymes were shown to be distinct from pancreatic endopeptidases on the basis of the following: enrichment in the brush-border membrane fraction, site of hydrolysis of peptide substrates, sensitivity to specific proteinase inhibitors, and the presence of brush-border membrane-associated endopeptidase activity in mucosal cells of Thirty-Vella loops. Hydrolysis of the substrates was shown to be a two-step process involving initial cleavage by endopeptidase with secondary hydrolysis of the peptide products by brush-border membrane aminopeptidase N. Hydrolysis of both substrates was maximum at a neutral pH and was strongly inhibited by metal chelating agents, phosphoramidone, and amastatin. Intestinal perfusion studies using glutaryl-trialanine-4-methoxy-beta-naphthylamide suggest that these enzymes play a physiologic role in protein digestion. It was concluded that neutral endopeptidases are integral components of the intestinal brush-border membrane and work in concert with aminopeptidase N to hydrolyze dietary protein. This process may be of nutritional importance in normal subjects and those with diminished exocrine pancreatic function.
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PMID:Identification and characterization of brush-border membrane-bound neutral metalloendopeptidases from rat small intestine. 353 Aug 66

Endopeptidase-24.11 (EC 3.4.24.11), a widely distributed cell-surface endopeptidase in pig tissues, was purified by immunoaffinity chromatography from its second most abundant source, lymph nodes. The detergent-solubilized enzyme is a glycoprotein with an apparent subunit Mr of 91,000, by electrophoresis in the presence of SDS. This value is intermediate between those observed in preparations from kidney and intestine. The specific activity (125I-labelled insulin B-chain as substrate) was similar to that prepared from other sources. Immuno-peroxidase and immunofluorescent cytochemical methods with either a monoclonal antibody, GK7C2, or an affinity-purified polyclonal antiserum, RP109, were used to establish the distribution and localization of the antigen in lymph nodes. Examination of many nodes confirmed the variability of endopeptidase-24.11 content from node to node. Pig lymph nodes are composed of functionally discrete nodelets and are anatomically inverted, with medulla being located peripheral to the cortex. Endopeptidase-24.11 was present in medulla, paracortex and cortex. The medulla, containing relatively few lymphocytes, stained more intensely than other zones. Lymphocyte-rich areas stained only weakly, but antigen was detectable in the centres of follicles and more strongly in a band surrounding them. The pattern of staining was reticular in appearance in all zones. In primary cell cultures, set up after enzymic disruption of nodes, the immuno-positive cells were found to be adherent to glass or plastic and to exhibit a fibroblastic morphology. Diffuse surface immunofluorescence and brighter intracellular immunofluorescence in granules were observed in these cells in the first few days of culture, but by the fourth day no immuno-positive cells remained and the fibroblasts that grew to confluence were somewhat different in morphology. The cells expressing the endopeptidase-24.11 antigen did not express Ia antigen and were clearly distinct from antigen-presenting dendritic cells. In appearance and properties they belong to the group described as reticular cells.
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PMID:Endopeptidase-24.11 in pig lymph nodes. Purification and immunocytochemical localization in reticular cells. 353 5

An endopeptidase (LEP-II), which has a unique substrate specificity, was purified to homogeneity by conventional chromatographic techniques from Streptococcus cremoris H61. The enzyme was a metalloendopeptidase since it was inhibited by EDTA and 1,10-phenanthroline; the metal-depleted enzyme could be fully reactivated by micromolar levels of Zn2+ and was not inhibited by specific inhibitors for serine or thiol protease. The molecular mass of the enzyme was estimated to be 80 kDa by Sephacryl S-300 gel filtration and high-performance liquid chromatography with a TSK-G3000SW column. The enzyme consisted of two identical subunits and the N-terminal sequence of LEP-II was determined up to the 19th residue. Although the enzyme had a broad substrate specificity it specifically hydrolyzed the peptide bonds involving the amino groups of hydrophobic amino acid residues. Various small polypeptides, such as alpha s1-CN(f1-23), alpha s1-CN(f91-100), oxidized insulin B chain, glucagon and some biologically active peptides were hydrolyzed. However, a variety of larger polypeptides or proteins, such as alpha s1-CN(f1-54), alpha s1-CN(f61-123), alpha s1-CN(f136-196), alpha s1-casein, beta-casein, and kappa-casein were not hydrolyzed. LEP-II recognized the size of its substrates, which were limited below a molecular mass of about 3.5 kDa.
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PMID:Purification and characterization of a novel metalloendopeptidase from Streptococcus cremoris H61. A metalloendopeptidase that recognizes the size of its substrate. 354 30


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