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

Recent studies have shown that some manifestations of cis-diamminedichloroplatinum (II) (cis-Pt) induced nephrotoxicity in animals may be exacerbated if the animals are nutritionally deprived of copper. The objective of the present study was to determine the effects of cis-Pt induced toxicity on enzyme activities in the kidney microvilli of rats with different copper statuses. Weanling male rats were fed copper-deficient (CuD) (less than 1 mg/kg Cu of diet) or copper-adequate (CuA) (5 mg/L of Cu in drinking water) regimens. After 24 days, rats were given i.v. injections of either cis-Pt (5 mg/kg BW) or saline in a 2 x 2 factorial design. At days 2 and 4 post-injection rats were killed and tubular microvilli isolated from the kidney cortex. Each preparation was assayed for the activities of 5 membrane-bound enzymes. Angiotensin-I converting enzyme (ACE) activity was 20 to 30% higher in the microvilli of CuD rats than in controls. Cis-Pt treatment enhanced ACE activity as well, and activity in treated rats was 60 to 110% higher than in controls. At day 2 there was a 20% greater increase in ACE activity in cis-Pt-treated CuD rats than in CuA rats. Aminopeptidase N activity was 35% lower in CuD rats than controls, but activity was not affected by cis-Pt. Gamma-glutamyltransferase activity was lowered by as much as 30% in cis-Pt-treated rats when compared to controls, but there was no effect of copper deficiency. Alkaline phosphatase and neutral endopeptidase 24.11 activities were significantly lower in microvilli of cis-Pt-treated rats than in those not treated.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of copper deficiency and cis-diamminedichloroplatinum (II) treatment on the activities of renal microvillar enzymes in rats. 198 71

Airway mucosa consists of several types of cells including ciliated cells, mucus secreting cells, basal cells and Clara cells. In this review, fine structures of these epithelial cells and intercellular junctions are demonstrated by scanning and transmission electron microscopy, and the proposed kinetics of cellular maturation and development are discussed. Airway epithelium not only plays a role as a mechanical barrier at the air-surface interface but also possesses a wide variety of functions. Ciliary beating has been recognized to be one of the important determinants for mucociliary transport by clearing inhaled particles and bacteria from the airway. We found that the motility of cilia can be regulated by intracellular second messengers, such as Ca2+, cAMP, and protein kinase C. When ciliated epithelium is encountered by physicochemical stimuli, these signal transduction systems are activated through phosphatidylinositol turnover and/or Ca2+ channel opening, which subsequently modulate the synthesis of ATP, an energy source of ciliary beating. Airway epithelium contains the enzyme neutral endopeptidase which can degrade several peptides into inactive fragments, thus regulating the actions of tachykinins released from sensory C-fibers via axon reflex. Ion transport across airway mucosa is determined by Cl secretion and Na absorption in airway epithelium. To elucidate the mechanism of airway hypersecretion under several conditions of respiratory diseases, the effects of chemical mediators, neuropeptides, and inflammatory mediators on electrical properties of canine cultured tracheal epithelium were studied. We also expanded this idea to human subjects and found that indomethacin inhalation was valuable in reducing the amounts of sputum production by inhibiting Cl and water secretion into the airway lumen. In addition, airway epithelium can modulate contraction of airway smooth muscle by generating epithelium-derived relaxing factor (EpDRF). We have shown that lipopolysaccharide-induced airway hyperreactivity seems attributable to the loss of airway epithelium with EpDRF.
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PMID:[Structure and function of airway epithelial cells]. 207 99

Rat atrial natriuretic factor (125I-rANF, 99-128) is hydrolysed by pure enkephalinase (EC 3.4.24.11) in vitro at a rate similar to that of 125I-hANF. Trichloroacetic precipitated radioactivity was significantly elevated in the kidneys of rats pretreated with acetorphan, an enkephalinase inhibitor, and receiving 125I-rANF, indicating that the exogenous hormone was protected against degradation. A single oral administration of acetorphan elicited diuretic and natriuretic effects in conscious normotensive rats and natriuretic effects in spontaneously hypertensive rats, effects which were not accompanied by significant changes in kaliuresis. The diuretic and natriuretic effects were still observed in conscious normotensive rats after three days of repeated administration of the drug. In conscious or anesthetized rats in which volume expansion was elicited by hydroelectrolytic loads, the initial rate of urinary elimination of water and sodium was nearly doubled by treatment with enkephalinase inhibitors. This effect was prevented by coadministration of an ANF antiserum, which suggests that the effect was mediated by endogenous ANF. These various observations suggest that enkephalinase inhibitors protect endogenous ANF from degradation and thereby enhance the typical renal effects of the hormone.
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PMID:Diuretic and natriuretic responses in rats treated with enkephalinase inhibitors. 214 87

Although amphetamine anorexia has been linked to activation of dopaminergic receptors within the lateral aspects of the hypothalamus, the receptor type by which phenylpropanolamine (PPA: the racemic mixture of d- and l-norephedrine) induces anorexia has not been identified. In the present experiment, separate groups of adult male rats were pretreated (IP) with either 0.9% saline or haloperidol (either 0.4 or 0.8 mg/kg) 45 minutes prior to treatment (IP) with either saline or 20 mg/kg l-NEP (the active enantiomer of PPA) and were then allowed 180 minutes access to food and water. Treatment with 20 mg/kg l-NEP induced comparable reductions in food intake of approximately 30% in rats pretreated with either dose of haloperidol or saline. In a sub-experiment, it was demonstrated that 1.0 mg/kg d-amphetamine sulfate reduced food intake by 25%, but this anorexic action was completely attenuated by 0.8 mg/kg haloperidol given 45 minutes prior to feeding. These results add to a growing body of literature that documents important differences between the mechanisms by which amphetamine and PPA produce their anorexic actions.
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PMID:Effects of haloperidol on anorexia induced by l-norephedrine and d-amphetamine in adult rats. 232 Jun 55

Nine mongrel dogs were anesthetized, paralysed, ventilated, and placed in an iron lung. Each animal was transiently connected to a spirometer and the respiratory system compliance measured by applying negative or positive extrathoracic pressures (from -20 cm H2O to +20 cm H2O in 5 cm H2O steps). A sub-lobar bronchus was wedged with a 5.5 mm bronchoscope, and a 5f Swan-Ganz catheter was inserted into the lumen of the bronchoscope; one port served to introduce a 200 ml.min-1 flow of 5% CO2 in air, the other to measure the pressure in the wedged segment. Rcoll was measured with extrathoracic pressures in the iron lung ranging from 0 to -20 cm H2O (NEP) and 0 to +20 cm H2O (PEP) in 5 cm H2O steps, and under expiratory positive airway pressure (EPAP) of 5, 10, 15, and 20 cm H2O. The maximal changes in FRC were an increase of 1009 +/- 49 ml (mean +/- SEM) with NEP and a decrease of 397 +/- 33 ml with PEP. Increasing FRC decreased Rcoll while decreasing FRC markedly increased it. EPAP induced similar decreases in Rcoll as NEP of equal pressure. This effect of EPAP was inhibited by simultaneously applying PEP of equal pressure. We conclude that resistance to collateral flow is highly dependent on lung volume, and that positive airway pressure decreases Rcoll by its effects on lung volume.
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PMID:Effects of lung volume and positive airway pressure on collateral resistance. 236 48

Carboxypeptidase M, a plasma membrane-bound enzyme, is present in many human organs and differs from other carboxypeptidase that cleave basic COOH-terminal amino acids. Cultured Madin-Darby canine kidney (MDCK) distal tubular cells contain a kininase I-type enzyme that inactivates bradykinin by releasing Arg9. We found the properties of this kininase to be identical with carboxypeptidase M. In fractionated cells, carboxypeptidase activity sediments with membranes; and detergents, trypsin, and phosphatidylinositol-specific phospholipase C solubilize it, similar to results with human placental carboxypeptidase M. Ten microM 2-mercaptomethyl-3-guanidinoethylthiopropanoic acid and 1 mM o-phenanthroline inhibit, whereas 1.0 mM CoCl2 activates the enzyme. It has a neutral pH optimum and cleaves COOH-terminal Arg or Lys in bradykinin and in shorter peptides. The relative hydrolysis rates of peptides in the presence or absence of 1 mM CoCl2 were similar to those obtained with human carboxypeptidase M. The carboxypeptidase in MDCK cells (54 kDa) cross-reacts with antibodies to human carboxypeptidase M in Western blotting, but not with antibodies to plasma carboxypeptidase N. The enzyme is a glycoprotein; chemical deglycosylation reduced the size to 48 kDa. The presence of the enzyme on the cell membrane of MDCK cells was also shown with transmission electron microscopy using immunogold, which indicated that the enzyme is on the apical side. In addition, MDCK cells contain neutral endopeptidase 24.11 (enkephalinase) and prolylcarboxypeptidase (angiotensinase C) activities. Partitioning of solubilized carboxypeptidase M into Triton X-114 and water indicates that trypsin and phospholipase C remove a hydrophobic tail, while detergent solubilization leaves the hydrophobic moiety intact. Labeling of MDCK cells with [3H]ethanolamine resulted in the synthesis of radiolabeled carboxypeptidase M as determined by immunoprecipitation and fluorography. Thus, MDCK cells contain membrane-bound carboxypeptidase M, which is anchored to the plasma membrane via phosphatidylinositol-glycan. As a major kininase of the distal tubules, it may regulate salt and water excretion.
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PMID:Carboxypeptidase M in Madin-Darby canine kidney cells. Evidence that carboxypeptidase M has a phosphatidylinositol glycan anchor. 239 13

In order to further clarify the role of renal kallikrein-kinin (K-K) system in primary aldosteronism (PA), daily urinary excretions of renal K-K system components including kallikrein (KAL), kinin (KIN), total kininase (K-ase), K-ase I, K-ase II and neutral endopeptidase (NEP) were measured in PA and normotensives (NT). In this study, a new method for the simultaneous determination of human urinary K-ase I, II and NEP was established and employed. The daily excretions of KAL was significantly higher in PA than that in NT, while no difference was found in KIN between PA and NT. On the other hand, total K-ase in PA (897 +/- 258 micrograms/min/day) was significantly higher than that in NT (209 +/- 6). NEP was also significantly higher in PA (262 +/- 22 micrograms/min/day) than that in NT (127 +/- 6), whereas there were no differences in K-ase I and K-ase II between PA and NT. The relative contributions of K-ase I, II and NEP to total K-ase in NT were 14, 27 and 59%, while those in PA were 12, 17 and 36%, respectively. As a result, these three K-ase contributed only 64% to the total K-ase in PA. These findings suggested that 1) NEP may play a major role in the catabolism of renal KIN in human, 2) NEP is accelerated in PA, 3) unknown K-ase, different from K-ase I, II or NEP, may exist in PA, and 4) accelerated renal K-ase activity may play some role on the disorder of renal water-sodium metabolism and high blood pressure in PA.
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PMID:Renal kininases in primary aldosteronism. 255 6

Normal human pituitaries were extracted in boiling water and acetic acid, and the alpha-amidated peptide products of pro-opiomelanocortin (POMC), alpha-melanocyte-stimulating hormone (alpha MSH), gamma-melanocyte-stimulating hormone (gamma 1MSH), and amidated hinge peptide (HP-N), as well as their glycine-extended precursors, were characterized by sequence-specific radioimmunoassays, gel-chromatography, h.p.l.c. and amino acid sequencing. alpha MSH and gamma 1MSH constituted 0.27-1.32% and 0.10-5.10%, respectively, of the POMC-derived products [calculated as the sum of adrenocorticotropic hormone (ACTH)-(1-39), ACTH-(1-14) and alpha MSH immunoreactivity]. alpha MSH and ACTH-(1-14) were only present in non- or mono-acetylated forms. Only large forms of gamma 1MSH and gamma 2MSH were present in partly glycosylated states. The hinge peptides were amidated to an extent two to three orders of magnitude greater than alpha MSH and gamma 1MSH. Most (99%) of the HP-N was of low molecular mass and consisted mainly of HP-N-30. The remaining part was high-molecular-mass HP-N, probably HP-N-108, although the presence of HP-N-44 could not be completely excluded. These results show that all the possible amidated POMC-related peptides are present in normal human pituitary. It also shows that cleavage in vivo at all dibasic amino acids but one, takes place at the N-terminal POMC region; the exception is at the POMC-(49-50) N-terminal of the gamma MSH sequence. The pattern of peptides produced suggests that the generation of amidated peptides is mainly regulated at the endopeptidase level.
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PMID:Alpha-amidated peptides derived from pro-opiomelanocortin in normal human pituitary. 283 46

Proteinase K, the extracellular serine endopeptidase (E.C.3.4.21.14) from the fungus Tritirachium album limber, is homologous to the bacterial subtilisin proteases. The binding geometry of the synthetic inhibitor carbobenzoxy-Ala-Phechloromethyl ketone to the active site of proteinase K was first determined from a Fourier synthesis based on synchrotron X-ray diffraction data between 1.8 A and 5.0 A resolution. The protein inhibitor complex was refined by restrained least-squares minimization with the data between 10.0 and 1.8 A. The final R factor was 19.1%, and the model contained 2,018 protein atoms, 28 inhibitor atoms, 125 water molecules, and two Ca2+ ions. The peptide portion of the inhibitor is bound to the active center of proteinase K by means of a three-stranded antiparallel pleated sheet, with the side chain of the phenylalanine located in the P1 site. Model building studies, with lysine replacing phenylalanine in the inhibitor, explain the relatively unspecific catalytic activity of the enzyme.
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PMID:X-ray and model-building studies on the specificity of the active site of proteinase K. 323 15

A number of phosphonamidate and phosphonate tripeptide analogues have been studied as transition-state-analogue inhibitors of the zinc endopeptidase thermolysin. Those with the form Cbz-GlyP(Y)Leu-X [ZGP(Y)LX, X = NH2 or amino acid, Y = NH or O linkage] are potent (Ki = 9-760 nM for X = NH, 9-660 microM for X = O) but otherwise ordinary in their binding behavior, with second-order rate constants for association (kon) greater than 10(5) M-1 s-1. Those with the form Cbz-XP(Y)-Leu-Ala [ZXP(Y)LA,XP = alpha-substituted phosphorus amino acid analogue] are similarly potent (Ki for ZFPLA = 68 pM) but slow binding (kon less than or equal to 1300 M-1 s-1). Several kinetic mechanisms for slow binding behavior are considered, including two-step processes and those that require prior isomerization of inhibitor or enzyme to a rare form. The association rates of ZFPLA and ZFP(O)LA are first order in inhibitor concentration up to 1-2 mM, indicating that any loose complex along the binding pathway must have a dissociation constant above this value. The crystallographic investigation described in the preceding paper [Holden, H. M., Tronrud, D. E., Monzingo, A. F., Weaver, L. H., & Matthews, B. W. (1987) Biochemistry (preceding paper in this issue)] identifies a specific water molecule in the active site that may hinder binding of the alpha-substituted inhibitors. The implication of this observation for a mechanism for slow binding is discussed.
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PMID:Possible role for water dissociation in the slow binding of phosphorus-containing transition-state-analogue inhibitors of thermolysin. 344 76


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