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)

We examined the effects of acute exposure to cigarette smoke on the airway responses to substance P in anesthetized guinea pigs and on the activity of airway neutral endopeptidase (NEP). After exposure to air or to cigarette smoke we measured the change in total pulmonary resistance (RL) induced by increasing concentrations of aerosolized substance P in the absence or presence of the NEP inhibitor phosphoramidon. In the absence of phosphramidon the bronchoconstrictor responses to substance P were greater in cigarette smoke-exposed guinea pigs than in air-exposed animals. Phosphoramidon did not further potentiate the responses to substance P in smoke-exposed guinea pigs, whereas it did so in air-exposed animals. In the presence of phosphoramidon, bronchoconstrictor responses to substance P in animals exposed to air or to cigarette smoke were not different. Aerosols of SOD delivered before cigarette smoke exposures dramatically reduced smoke-induced hyperresponsiveness to substance P, whereas heat-inactivated SOD had no effect on smoke-induced hyper-responsiveness to substance P. Cigarette smoke solution inhibited NEP activity from tracheal homogenate in a concentration-dependent fashion, an inhibitory effect that was mostly due to the gas phase of the smoke, but not to nicotine. The mild chemical oxidant N-chlorosuccinimide mimicked the concentration-dependent inhibitory effect of smoke solution on airway NEP activity. We conclude that cigarette smoke causes enhanced airway responsiveness to substance P in vivo by inactivating airway NEP. We suggest that cigarette smoke-induced inhibition of airway NEP is due to effects of free radicals.
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PMID:Cigarette smoke induces bronchoconstrictor hyperresponsiveness to substance P and inactivates airway neutral endopeptidase in the guinea pig. Possible role of free radicals. 247 76

A novel membrane-bound serine proteinase has been purified from the microsomal membranes of porcine intestinal mucosa. It was solubilized from the microsomal membrane fraction with 1% sodium deoxycholate, then purified by a series of column chromatographic steps on DE52, butyl-Toyopearl, Bio-Gel P-150, Mono Q, and benzamidine-Sepharose in the presence of 0.02% Lubrol PX. Its molecular mass was estimated to be 50 kDa both by SDS-polyacrylamide gel electrophoresis under non-reducing conditions and by gel filtration, and to be 32 kDa by SDS-polyacrylamide gel electrophoresis under reducing conditions, suggesting that the enzyme may exist as a homodimer in which two subunits are linked by disulfide bond(s). It had a pH optimum at around 9 and did not require Ca2+ for activity. It cleaved several peptide 4-methylcoumaryl-7-amide substrates almost exclusively after arginine residues, the best substrate among those tested being t-butyloxycarbonyl-Gln-Ala-Arg-4-methylcoumaryl-7-amide. Various neuropeptides were also cleaved by this enzyme after arginine, mainly between paired basic amino acid residues, Arg-Arg or Arg-Lys. Activity toward protein substrates was scarcely detected. Further, its partial amino acid sequences were highly homologous, but not identical, with those of trypsin-type serine proteinases. These results indicate that the present enzyme is a novel arginine-specific trypsin-like endopeptidase, possibly involved as a processing proteinase in the production of certain gastrointestinal neuropeptides or peptide hormones from their precursors, or their specific degradation.
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PMID:Purification and characterization of a novel membrane-bound arginine-specific serine proteinase from porcine intestinal mucosa. 780 28

The recombinant human carboxy-terminal-truncated macrophage colony-stimulating factor ([3-153]M-CSF) consists of 302 amino acid residues and has a molecular mass of about 32 kDa, as estimated by SDS-PAGE. Two covalently linked subunits constitute a bioactive homodimer. The structure of the purified protein, expressed in Escherichia coli and refolded from inclusion bodies, was studied. The amino acid sequence was determined by automated Edman degradation of fragments obtained from degradation with CNBr and iodosobenzoic acid as well as by digestion with Glu-C endopeptidase of reduced and alkylated M-CSF. The absence of free thiol groups in the molecule was confirmed with Ellman reagent, which indicated the presence of seven disulfide linkages per homodimer. Sequence analysis of cystine-containing peptides, identified by comparing the peptide maps from unmodified and performic acid-oxidized pepsin digests, gave the following results. (1) Six out of seven disulfide linkages were formed between Cys 7 and Cys 90, Cys 48 and Cys 139, and Cys 102 and Cys 146 at each pair of positions as either intra- or inter-chain disulfides. (2) The remaining disulfide linkage linked Cys 31 of one subunit to Cys 31 of the second subunit of M-CSF. Based on our findings, a two-dimensional model is proposed in which the possible covalent linkage is suggested between the two subunits of the bioactive [3-153]M-CSF molecule.
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PMID:Structural analysis of recombinant human carboxy-terminal-truncated macrophage colony-stimulating factor. 845 79

Homospermidine synthase (HSS) catalyzes the synthesis of the polyamine homospermidine from 2 mol putrescine in an NAD(+)-dependent reaction. In this study, the enzyme was purified from anaerobically grown cultures of the photosynthetic bacterium Rhodopseudomonas viridis to electrophoretic homogeneity using a three-step procedure. The enzyme was shown to be a homodimer of 52-kDa subunits. Six endopeptidase LysC fragments were sequenced from the purified protein. With the aid of degenerate primers designed against these peptides, specific PCR products from R. viridis DNA were obtained that were used as hybridization probes to isolate the hss gene from a library constructed in lambda EMBL4. The hss gene and flanking regions were sequenced and were shown to exist as a single copy in the R. viridis genome. HSS is translated from a monocistronic mRNA and possesses no detectable similarity to previously sequenced gene products. Escherichia coli, which lacks HSS activity, was transformed with an expression plasmid containing the hss coding region under the control of a bacteriophage T7 promoter. Upon induction, transformed F. coli cells accumulate enzymatically active and highly stable R. viridis HSS at levels corresponding to 40-50% of the soluble protein in crude extracts.
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PMID:Purification, molecular cloning and expression in Escherichia coli of homospermidine synthase from Rhodopseudomonas viridis. 884 1

Metabolism of leucine and methionine enkephalins by enzyme preparations from head parts of the leech Theromyzon tessulatum was investigated. Leech homogenate degraded enkephalins by cleavage of the Tyr1-Gly2 and Gly3-Phe4 bonds. The Tyr1-Gly2-Gly3 was detected as a major metabolite when amastatin (aminopeptidase inhibitor) was present to prevent Tyr1-Gly2 breakdown. Around 50% of enkephalin-degrading activity was isolated in a 20000 x g membrane fraction and was shown to be almost entirely due to an aminopeptidase activity. This enzyme, a homodimer of approx. 70 kDa, has been purified to homogeneity by a combined approach including gel permeation and anion exchange chromatographies followed by reversed-phase HPLC. This enkephalin-degrading aminopeptidase is a typical integral membrane 'zincin' metalloprotein with an apparent k(m) of 30 microM, a specific activity of 12 nmol GGFM min-1 mg protein-1 and a catalytic efficiency (kcat/k(m)) of 46 x 10(6) mol-1 min-1. This enzyme is specifically inhibited by amastatin (IC50 = 0.5 microM), but not by bestatin and actinonin. In leech membranes, the other degrading activities performed at the same time were due to a neuropeptide-endopeptidase (NEP)-like enzyme attack, inhibited by phosphoramidon (IC50 = 0.1 microM) and in the case of the Met-enkephalin by a combined action of an angiotensin-converting-like enzyme, inhibited by captopril (IC50 = 0.2 microM) and the NEP-like enzyme. These two enzymes were previously isolated from head membranes of T. tessulatum and possess towards Met-enkephalin a catalytic efficiency (kcat/k(m)) of, respectively, 12 x 10(6) mol-1 min-1 and 78 x 10(6) mol-1 min-1. These findings constitute the first report in leeches on the nature and the sites of attack of the membrane peptidases involved in the metabolism of enkephalins and also the first biochemical evidence for a novel member of the aminopeptidase family.
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PMID:Metabolism of enkephalins in head membranes of the leech Theromyzon tessulatum by peptidases: isolation of an enkephalin-degrading aminopeptidase. 888 79

Two kinds of dipeptidyl aminopeptidase I (DAP I [cathepsin C])-like activities which hydrolyze Gly-Phe-p-nitroanilide (Gly-Phe-pNA) were detected in Pseudomonas sp. strain WO24. They were purified and characterized. The isolated enzymes, named DAP BII and DAP BIII, were revealed to be homogeneous by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and isoelectric focusing. DAP BII was estimated to have a molecular mass of 150,000 Da by gel filtration and a subunit size of 73,000 Da by SDS-PAGE, indicating it to be a homodimer. The molecular mass of DAP BIII was evaluated to be approximately 60,000 Da by gel filtration and 69,000 Da by SDS-PAGE, indicating that it is monomeric. The isoelectric points of DAP BII and DAP BIII were 6.1 and 5.0, and their optimal pHs were 8.0 and 8.5 to 9.0, respectively. The result of peptide mapping for DAP BII and DAP BIII showed that these enzymes consist of different components. Both enzymes were completely inhibited by diisopropylphosphofluoride but not by general thiol inhibitors, indicating that they are serine proteases. DAP BII and DAP BIII hydrolyzed Gly-Phe-pNA but not Gly-Arg-pNA, both of which are model substrates for mammalian DAP I. Despite these shared activities toward DAP I, DAP BII released dipeptides from Ala-Ala-pNA and Lys-Ala-4-methylcoumarinamide (a substrate for DAP II), whereas DAP BIII did not hydrolyze either of these compounds and was presumed to prefer substrates composed of bulky, hydrophobic amino acids at P1 and P1' positions. In addition, DAP BII showed no endopeptidase activity, whereas DAP BIII possessed the activity on N-terminally blocked peptide derivatives besides exopeptidase activity. Assays performed with bioactive peptides such as angiotensin I and neuromedin N as substrates indicate that DAP BII has a considerably broader substrate specificity than DAP BIII and is able to hydrolyze an X-Pro bond, an imido bond that few peptidases and no known DAPs can cleave. These characteristics, namely, substrate specificities, molecular mass, pI, peptide mapping, pH optimum, and effect of inhibitors, suggested that the two DAPs purified in this work are distinct enzymes and do not belong to any of the previously reported DAP classes.
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PMID:Two types of novel dipeptidyl aminopeptidases from Pseudomonas sp. strain WO24. 889 31

To test the hypothesis that oxygen radicals play an important role in the nonvagal component of the noncholinergic bronchoconstriction in vivo, 37 guinea pigs weighing 329 +/- 8 g were randomly divided into five groups: group 1, vagotomy; group 2, vagotomy + CAT (catalase); group 3, vagotomy + SOD (superoxide dismutase); group 4, vagotomy + PBN (alpha-phenyl-N-tert-butyl nitrone); and group 5, capsaicin pretreatment. CAT, SOD, and PBN are antioxidants. Each animal was anesthetized, paralyzed, artificially ventilated, and pretreated with atropine and phenoxybenzamine. Immediately after acute capsaicin challenge, animals in group 1 exhibited decreases in maximal expiratory flow, dynamic respiratory compliance, and total lung capacity, as well as an increase in functional residual capacity, indicating noncholinergic airway constriction. The bronchoconstriction was significantly ameliorated by SOD and PBN, and it was almost abolished by capsaicin pretreatment. Thirty minutes after acute capsaicin challenge, there was a significant decrease in airway NEP activity and an increase in lung substance P level in group 1 but not in other groups. These results indicate that nonvagal component of noncholinergic bronchoconstriction is partially modulated by oxygen radicals.
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PMID:Oxygen radicals in the nonvagal component of noncholinergic airway constriction. 889 67

Neutral endopeptidase-24.11 (NEP; neprilysin; EC 3.4.24.11) and endothelin-converting enzyme (ECE) are related zinc metallopeptidases involved in the processing of biologically active peptides. Only ECE, however, exists as a disulphide-linked homodimer. The covalent linkage in rat ECE is between Cys412 in each subunit, which is equivalent to Glu403 in rabbit NEP. Here we report that directed mutagenesis of Glu403 to cysteine in rabbit NEP creates a disulphide-linked homodimer, as revealed by transient transfection in COS-1 cells and SDS/PAGE of a membrane fraction. Under reducing conditions, both the mutant (E403C) and the wild-type NEP migrate as a polypeptide of 92 kDa. However, under non-reducing conditions, the Mr of the wild type remains unchanged, whereas that of the mutant is doubled. Co-transfection of wild-type ECE and E403C NEP cDNA did not result in the production of a NEP-ECE heterodimer. Comparison of the kinetic constants for wild-type and E403C mutant NEP with either [D-Ala2,Leu5]enkephalin or 3-carb oxypropanoyl-alanyl-alanyl- leucine-4-nitroanilide(Suc-Ala-Ala-Leu-NH-Np) as substrate show a decrease of approx. 50% in Vmax/Km for the mutant form. The IC50 value for inhibition of the mutant by phosphoramidon or thiorphan is increased 3-fold and 5-fold respectively. Although NEP and ECE exhibit only about 40% identity and differ substantially in substrate specificity and some other characteristics, these data indicate that they have considerable similarity in three-dimensional structure, allowing dimer formation in the mutant NEP with the disulphide link probably occurring in a hydrophilic surface loop.
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PMID:Mutagenesis of Glu403 to Cys in rabbit neutral endopeptidase-24.11 (neprilysin) creates a disulphide-linked homodimer: analogy with endothelin-converting enzyme. 958 75

We isolated a membrane-bound metallopeptidase, DINE (damage-induced neuronal endopeptidase), by differential display PCR using rat normal and axotomized hypoglossal nuclei. The most marked properties of DINE were neuron-specific expression and a striking response to axonal injury in both the central nervous system and peripheral nervous system. For instance, cranial and spinal nerve transection, ischemia, corpus callosum transection, and colchicine treatment increased DINE mRNA expression in the injured neurons, whereas kainate-induced hyperexcitation, immobilization, and osmotic stress failed to up-regulate DINE mRNA. Expression of DINE in COS cells partially inhibited C2-ceramide-induced apoptosis, probably because of the activation of antioxidant enzymes such as Cu/Zn-superoxide dismutase, Mn-superoxide dismutase, and glutathione peroxidase through the proteolytic activity of DINE. These data provide insight into the mechanism of how injured neurons protect themselves against neuronal death.
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PMID:Damage-induced neuronal endopeptidase (DINE) is a unique metallopeptidase expressed in response to neuronal damage and activates superoxide scavengers. 1075 59

Myostatin is a member of the transforming growth factor-beta (TGF-beta) superfamily, and it acts as a negative regulator for skeletal muscle growth. Like many other TGF-beta family member proteins, the mature form of myostatin is a homodimer that is processed post-translationally from a precursor form of myostatin. Since the presence of a prodomain is essential for proper folding and homodimer assembly for some members of the TGF-beta superfamily, we compared the refolding in vitro of porcine unprocessed and mature myostatin over-expressed in Escherichia coli as inclusion bodies. A high alkaline buffer solution containing a mild anionic detergent and a reducing agent was used to solubilize the myostatin inclusion bodies. An optimal condition for refolding was obtained by rapid dilution of the solubilized protein in a buffer system containing reduced and oxidized glutathione, and subsequent incubation at 4 degrees C for at least 7 days. The unprocessed porcine myostatin demonstrated reversible disulfide bond formation after refolding, a characteristic of the native form of myostatin. In contrast, the mature myostatin formed aggregates that did not demonstrate reversible disulfide bond formation in the refolding condition used in this study. These results demonstrate the importance of the myostatin prodomain in facilitating the proper folding of mature myostatin. Reaction of the refolded, unprocessed myostatin with furin, an endopeptidase cleaving between paired basic residues, yielded prodomain and mature myostatin, demonstrating that the unprocessed myostatin is a substrate for furin. The prodomain did not form disulfide bond formation but the mature myostatin demonstrated reversible disulfide-linked homodimer formation. It is concluded that myostatin prodomain facilitates the proper folding of myostatin, and the refolded, native form of unprocessed myostatin could be obtained in high yield (15%) after E. coli expression as inclusion bodies.
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PMID:Refolding and purification of unprocessed porcine myostatin expressed in Escherichia coli. 1503 59


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