Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

On the basis of the homology with the Bacillus thermoproteolyticus zinc endopeptidase thermolysin, we hypothesized that Glu-143 and His-231 are the key residues for the catalytic activity of the Bacillus subtilis neutral protease. To test this possibility by site-directed mutagenesis, we substituted these two residues with Ala, Ser, Trp and Arg, and Leu, Val and Cys respectively. All these substitutions dramatically affected the amount of secreted mutant proteins, as determined by immunological methods, and their catalytic activities. No appreciable secretion was observed with the three Glu mutants Trp, Ser and Arg, whereas the Glu----Ala mutant enzyme was secreted at a level of a few hundred micrograms per litre of culture. The His mutants were all secreted at higher levels (in the order of a few milligrams per litre) and their residual catalytic activity could be determined using Z-Ala-Leu-Ala as substrate. Our results confirm the key role played by Glu-143 and His-231 in catalysis and moreover suggest the existence of a relationship between the catalytic activity of the enzyme and the extent of its secretion. In this context, we present data suggesting an autoproteolytic mechanism of cleavage of the precursor form of the enzyme, analogous to the one previously reported for the B. subtilis subtilisin.
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PMID:Effect of Glu-143 and His-231 substitutions on the catalytic activity and secretion of Bacillus subtilis neutral protease. 249 52

A lysate of purified insulin secretory granules, which contains two types of proinsulin processing activity (type 1, Arg-Arg-directed and type II, Lys-Arg-directed (Davidson, H.W., Rhodes, C.J., and Hutton, J. C. (1988) Nature 333, 93-96), was found to process proalbumin by specific proteolytic cleavage of the COOH-terminal side of the Arg-2-Arg-1 sequence. The subcellular distribution of proalbumin processing activity in insulinoma tissue paralleled that for proinsulin conversion and occurred principally in a secretory granule fraction. Cleavage appeared to result from the Arg-Arg-directed type 1 proinsulin processing endo-peptidase. It was Ca2+-dependent (K0.5 activation = 1.0-1.5 mM Ca2+), unaffected by group-specific inhibitors of serine, cysteinyl, or aspartyl proteinases, and had an acidic pH optimum (5.5). Active-site inhibitor studies showed this activity had a preference for dibasic over monobasic amino acid sequences and indicated that the sequence of the dibasic site was an important determinant of the susceptibility of the substrate to cleavage. The activity did not process the proalbumin Christchurch mutant (Arg-2-Arg-1 to Arg-2-Gln-1). It was inhibited by the variant alpha 1-antitrypsin Pittsburgh (Met358 to Arg358; K0.5 = 100 nM) but not by other related proteins normally co-secreted with albumin from hepatocytes, namely alpha 1-antitrypsin M, alpha 2-macroglobulin, or antithrombin III. The insulin secretory granule proalbumin processing activity was indistinguishable from a proalbumin endopeptidase reported in rat liver membranes and similar to the yeast KEX-2 protease. These findings suggest that a highly conserved set of proprotein endopeptidases exists, which are specific for a dibasic sequence but broadly specific for proprotein substrates. Such enzymic activities appear to be active within both the constitutive and regulated pathways of secretion. Intraorganellar Ca2+ and pH appear to play a key role in regulating their activities.
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PMID:Proalbumin to albumin conversion by a proinsulin processing endopeptidase of insulin secretory granules. 250 14

The addition of 200 pM monoiodinated human atrial natriuretic factor-(99-126) (125I-hANF) to cultured bovine aortic smooth muscle cells at 37 degrees C resulted in a rapid clearance from the medium (t1/2 approximately 7.5 min). Within 5 min, [125I]iodotyrosine126 (125I-Y), Arg125-[125I]iodotyrosine126 (125I-RY) and Phe124-Arg-[125]iodotyrosine126 (125I-FRY) appeared in the medium. The identities of these degradation products were confirmed by 1) retention time on high performance liquid chromatography (HPLC) relative to standards, 2) products generated by digestion with aminopeptidase M, and 3) the absence of the Met110. Preincubation of the cells with ammonium chloride or chloroquine resulted in a significant increase in the intracellular accumulation of radiolabel, indicative of endocytosis and rapid delivery of 125I-hANF to an acidic intracellular compartment (endosome and/or lysosome). Neither ammonium chloride, chloroquine, nor excess unlabeled hANF blocked the rapid appearance in the medium of 125I-RY or 125I-FRY. Bestatin inhibited the generation of 125I-RY, with a concomitant increase in 125I-FRY, suggesting that the 125I-RY is produced by aminopeptidase action on 125I-FRY. The endopeptidase 24.11 (enkephalinase) inhibitor, SCH 39370, did not inhibit the formation of 125I-FRY. These results provide evidence of a peptidase capable of specifically removing the COOH-terminal tripeptide from 125I-hANF. The COOH-terminal tripeptide, Phe124-Arg-Tyr126, was also isolated from cell digests of hANF by HPLC and its identity confirmed by amino acid analysis. Since it is generally believed that the COOH-terminal tripeptide is critical to many of atrial natriuretic factor-(99-126)'s bioactivities, this enzyme may be involved in the inactivation of atrial natriuretic factor-(99-126) in target tissues.
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PMID:Metabolism of 125I-atrial natriuretic factor by vascular smooth muscle cells. Evidence for a peptidase that specifically removes the COOH-terminal tripeptide. 252 21

An extracellular Zn-endopeptidase was purified to homogeneity from the culture filtrates of Streptococcus faecalis (human oral strain 0G1-10) by a procedure that comprised concentration in an Amicon Hollow Fiber System, ammonium sulfate precipitation, gel permeation chromatography, hydrophobic interaction chromatography (batch operation on phenyl-sepharose Cl-4B), followed by fast protein liquid chromatography (FPLC) on a phenyl-Superose HR 5/5 column, and finally FPLC on a Superose 12 HR 10/30 column. The enzyme is a 31.5-kDa strongly hydrophobic protein with an isoelectric point of 4.6 and a broad pH optimum of 6 to 8. The substrate specificity of the enzyme is similar to that of the mammalian membrane endopeptidase-24.11 and Streptococcus thermophilus thermolysin (EC 3.4.24.4) in hydrolyzing preferentially the Phe24-Phe25 bond in insulin B-chain, followed by cleavage of the His5-Leu6 bond. The enzyme was especially active on Azocoll and gelatin; soluble and insoluble collagens were hydrolyzed at a lower rate. S. faecalis sex pheromone-related peptides and several mammalian bioactive peptides were cleaved at sites involving pronounced hydrophobicity. The enzyme did not hydrolyze small synthetic peptide derivatives (phenylazobenzyloxycarbonyl-L-Pro-L-Leu-Gly-L-Pro-D-Arg and 2-furylacryloyl-L-Leu-Gly-L-Ala) that are typically attacked by "true" bacterial collagenases. Chemical modification indicated the importance of histidyl, carboxyl, and tyrosyl groups in enzyme activity, suggesting that this enzyme may thus be classified as a metalloprotease II (EC 3.4.24.4). The enzyme is strongly inhibited by a 720-kDa factor present in rat inflammatory exudate. The pronounced ability of the enzyme to attack collagenous materials and certain bioactive peptides suggests its participation in inflammatory processes involving the presence of S. faecalis.
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PMID:Purification and substrate specificity of a strongly hydrophobic extracellular metalloendopeptidase ("gelatinase") from Streptococcus faecalis (strain 0G1-10). 253 44

The peptides H-Phe-Gly-Gly-Arg-Ile-Asp-Arg-Ile-NH2 (rANF8-15-NH2), Ac-Phe-Gly-Gly-Arg-Ile-Asp-Arg-Ile-NH2 (Ac-rANF8-15-NH2), and their corresponding retro-inverso-isomeric peptides H-D-Ile-D-Arg-D-Asp-D-Ile-D-Arg-Gly-Gly-D-Phe-NH2 (D-rANF15-8-NH2), Ac-D-Ile-D-Arg-D-Asp-D-Ile-D-Arg-Gly-Gly-D-Phe-NH2 (Ac-D-rANF15-8-NH2), were evaluated for their ability to compete for the binding of 125I-rANF5-28 to cultured spontaneously hypertensive rat (SHR) aortic smooth muscle cell membranes. Their stability toward hydrolysis by the neutral endopeptidase thermolysin was also studied. The octapeptides rANF8-15-NH2 and Ac-rANF8-15-NH2 bound with IC50's of 367 pM and 1900 pM, respectively, but were rapidly hydrolyzed by thermolysin. Retro-inverso-isomers were prepared to provide molecules with an improved enzymatic stability. The retro-inverso-isomers were completely stable to thermolysin but were virtually inactive in the binding assay (IC50 greater than 1 microM).
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PMID:Receptor binding affinity and thermolysin degradation of truncated and retro-inverso-isomeric ANF analogs. 254 Dec 91

We have examined pulmonary effects of bradykinin (Bk) in vivo and in vitro in guinea pigs and their potential inhibition by antagonists of Bk B1 and B2 receptors. Bk was a potent bronchoconstrictor in vivo and caused contractions of isolated, epithelium-denuded trachealis. D-Arg[Hyp3,D-Phe7]-Bk (NPC567) and D-arg[Hyp3,Thi5,8,D-Phe7]-Bk (NPC349), B2 receptor antagonists, were weak inhibitors of Bk-induced bronchoconstriction in vivo and were virtually inactive as antagonists of Bk-induced airway smooth muscle contraction. Several other B2 antagonists as well as B1 antagonist, des-Arg9-[Leu8]-Bk, did not inhibit Bk-induced tracheal contraction. The B1 receptor agonist des-Arg9-Bk was without effect on tracheal tone. Tracheal responses to Bk were unaffected by antagonists of muscarinic, histamine, serotonin, and catecholamine receptors. The inability of the antagonists to inhibit Bk is unlikely to be due to their degradation, because NPC567 was only weakly active in the presence of inhibitors of kininase I (EC 3.4.11.2), kininase II (EC 3.4.15.1), and neutral endopeptidase (EC 3.4.24.11). These studies were corroborated by ligand binding experiments in guinea pig and ovine airways. In [3H]Bk binding, the Bk antagonists had no effect in guinea pig trachea, slightly displaced [3H]Bk in ovine trachea, and inhibited approximately 60% of total specific binding in lung. des-Arg9-[Leu8]-Bk and several other agents, including atropine, neurokinin A, substance P, and vasoactive intestinal peptide, had no effect on lung Bk binding. Bk and its analogs were not degraded during the binding assay. These data suggest that pulmonary tissue, particularly in the large airways, contains a novel Bk binding site, a B3 receptor, which may be involved in Bk-induced bronchoconstriction.
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PMID:Evidence for a pulmonary B3 bradykinin receptor. 254 44

An endopeptidase that converts the opioid peptide dynorphin B (Tyr-Gly-Gly-Phe-Leu-Arg-aRg-Gln-Phe-Lys-Val-Val-Thr) to its bioactive fragment Leu-enkephalin-Arg6 was isolated from bovine spinal cord. The enzyme was purified about 230-fold from a concentrated spinal cord extract. Upon sodium dodecyl sulfate-polyacrylamide gel electrophoresis, it stained as a protein of Mr 55,000. The purified enzyme is optimally active at around pH7 and has essential thiol groups. It appears to be highly specific for dynorphin B (Km = 11 microM) but not for alpha-neoendorphin or dynorphin A, two other opioids included in the prodynorphin precursor. From its specificity, molecular size, and inhibitory spectrum, this enzyme is different from other known dynorphin-converting or -degrading enzymes and appears to be a unique and novel endoprotease.
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PMID:A novel bovine spinal cord endoprotease with high specificity for dynorphin B. 256 32

Human lung membrane-bound neutral metallo-endopeptidase (NME; EC 3.4.24.11) has been purified; this enzyme occurred in two forms, NME-I and NME-II. The total NME activity was purified 2,143-fold with the final specific activities for NME-I and NME-II being 750 and 1,124, respectively. The two NME forms were resolved in the final purification step involving ion exchange; in all earlier steps including gel filtration and affinity chromatography (phenyl sepharose) both forms behaved similarly and eluted simultaneously. NME-I and NME-II both had a Mr value of 97,000, and neither form dissociated into subunits. Catalytic actions of NME-I and NME-II upon bradykinin were identical; the Gly4-Phe5 and Pro7-Phe8 bonds of bradykinin were cleaved with the final hydrolytic products for each enzyme being the tetrapeptide, Arg-Pro-Pro-Gly, the tripeptide, Phe-Ser-Pro, and the dipeptide, Phe-Arg. The intermediate products were the heptapeptide, Arg-Pro-Pro-Gly-Phe-Ser-Pro, and the pentapeptide, Phe-Ser-Pro-Phe-Arg. Neither NME-I nor NME-II were inhibited by the angiotensin-converting enzyme inhibitor, captopril. Both enzymes were inhibited by phosphoramidon, dithiothreitol and EDTA. Other peptidase inhibitors and heavy metals were not effective NME inhibitors. Both NME-I and NME-II cleaved angiotensin-I at the Pro7-Phe8 bond, and substance-P at the Glu6-Phe7 bond, with the latter being much slower than the former.
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PMID:Human lung membrane-bound neutral metallo-endopeptidase-catalyzed hydrolysis of bradykinin. 261 55

Yeast Saccharomyces cerevisiae KEX2 gene previously isolated was characterized as the gene encoding an endopeptidase required for proteolytic processing of precursors of alpha-factor and killer toxin. In this study, the cloned KEX2 gene was introduced into the kex2 mutant cells and the KEX2 gene product expressed in these cells was partially purified from their membrane fraction. The enzyme preparation exhibits a calcium-dependent endopeptidase activity with a substrate specificity toward the carboxyl side of Lys-Arg, Arg-Arg and Pro-Arg sequences. The enzyme activity was inhibited by serine-protease inhibitors, such as DFP and PMSF, indicating that the KEX2 endopeptidase belongs to a serine-protease family. The optimal pH was determined to be around 5.5. Thus, the KEX2 endopeptidase was found to be a unique calcium-dependent serine-protease distinct from calpain and trypsin.
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PMID:Characterization of KEX2-encoded endopeptidase from yeast Saccharomyces cerevisiae. 264 83

An endopeptidase specific to the Plasmodium falciparum erythrocytic schizont stage and to free merozoites was detected using the fluorogenic GlcA-Val-Leu-Gly-Lys(or Arg)-AEC substrate. The enzyme was purified by high performance liquid chromatography (HPLC); its optimal activity was around pH 7.5 and its isoelectric point was 4.4. The molecular weight of the enzyme was about 68,000, as demonstrated by sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) under reducing conditions. The endopeptidase was strongly inhibited by thiol proteinase inhibitors, leupeptin, and antipain. The possible involvement of this neutral endopeptidase in the reinvasion process is discussed.
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PMID:Purification and identification of a neutral endopeptidase in Plasmodium falciparum schizonts and merozoites. 266 80


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