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)

Diuretics have long been used to lower blood pressure in hypertensive patients or to control body fluid and electrolyte homeostasis in diseases such as congestive heart failure, chronic renal failure or cirrhosis. The initial response to diuretics is a negative sodium and fluid balance. The diuretic-induced loss of salt and water activates several hormonal systems such as vasopressin, the renin-angiotensin-aldosterone system or the sympathetic nervous system which tend to compensate for the changes in sodium and water balance. This neurohormonal response may have important clinical implications. Thus, the activation of the renin-angiotensin-aldosterone cascade appears to be partially responsible for the flat dose-blood pressure response curve of thiazides in hypertensive patients. It may also be responsible for the difference between responders and non-responders to diuretic therapy and for the development of side-effects such as hypokalaemia, metabolic alkalosis or hyponatraemia. There are several ways to prevent the undesirable consequences of the neurohormonal responses to diuretics. The first is to use low doses of these agents. It is also possible to combine them with agents that block the activity of the renin-angiotensin-aldosterone system such as ACE inhibitors or in combination with drugs that reduce aldosterone secretion such as calcium antagonists. The development of drugs able to enhance urinary sodium excretion and to reduce simultaneously the activity of the renin-angiotensin-aldosterone system may offer a new interesting alternative. This might perhaps be achieved in the future with the administration of neutral endopeptidase inhibitors which interfere with the enzymatic degradation of atrial natriuretic peptide.
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PMID:Neurohormonal consequences of diuretics in different cardiovascular syndromes. 136 43

In order to obtain a large quantity of glutamic-acid-specific endopeptidase of Staphylococcus aureus ATCC12600 (SPase) without cultivating its pathogenic host bacterium, expression plasmids enabling secretion of SPase from Bacillus subtilis were constructed by inserting the SPase gene into B. subtilis-Escherichia coli shuttle vectors. B. subtilis harbouring a simple recombinant plasmid containing the coding and the 5'-flanking regions of SPase in the shuttle vector pHY300PLK secreted 22 mg/l of SPase into the medium. As this level was lower than that of the natural strain (45 mg/l), we tried to increase the expression level by constructing a series of hybrid plasmids with the following features: (1) the terminator sequence of the alkaline protease gene from B. subtilis, (2) the promoter and the leader sequences of the alpha-amylase gene or of alkaline protease gene from B. amyloliquefaciens, (3) the vector pHY300PLK and the fused vector of pHY300PLK and pUB110. By using a variety of hybrid plasmids, the resulting transformants secreted SPase at levels of 33-120 mg/l. The recombinant SPase isolated from the medium was indistinguishable from the natural one with respect to its behaviour on sodium dodecyl sulphate-polyacrylamide gel electrophoresis and Western blotting as well as its enzyme activity.
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PMID:Secretory expression of a glutamic-acid-specific endopeptidase (SPase) from Staphylococcus aureus ATCC12600 in Bacillus subtilis. 136 43

We determined the effect of an inhibitor of neutral endopeptidase, acetorphan, on the skin responses to substance P and on the bronchostrictor effects of sodium metabisulphite aerosol in asthmatic subjects. One hour following ingestion of acetorphan (200 mg) or placebo tablets, cutaneous responses to substance P were performed in four subjects. In seven subjects, bronchial challenge with increasing concentrations of sodium metabisulphite solutions was performed and the concentration required to cause a 20% fall in baseline FEV1 determined (PC20). On the acetorphan day, there was a significant increase in the wheal and flare responses to substance P and to the diluent (0.9% NaCl) alone. However, there was no significant effect of acetorphan on the PC20 metabisulphite. We conclude that metabisulphite airway challenge in vivo may not invoke the release of endogenous neuropeptides. However, the degree of inhibition of neuropeptide breakdown by the oral dose of acetorphan used may not have been optimal.
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PMID:Effect of neutral endopeptidase inhibitor on airway function and bronchial responsiveness in asthmatic subjects. 137 94

The depressor, natriuretic and cyclic GMP responses to several species of brain natriuretic peptide (BNP) were compared to atrial natriuretic peptide (ANP) 99-126 in conscious spontaneously hypertensive rats (SHR) and in conscious cynomolgus monkeys treated with vehicle or the selective neutral endopeptidase (NEP 3.4.24.11) inhibitor N-[2-(mercaptomethyl)-1-oxo-3-phenylpropyl]-beta- alanine (SQ 28,603). In the conscious SHR, the natriuretic and cyclic GMP responses to 3 nmol/kg i.v. rat BNP-32 greater than rat ANP 99-126 greater than pig BNP-26 and were significantly potentiated by 100 mumol/kg i.v. SQ 28,603. Human BNP-32 was inactive in the SHR treated with either vehicle or SQ 28,603. In contrast, 1 nmol/kg i.v. of human BNP-32 stimulated renal and depressor responses in the conscious monkeys that were greater than or equal to those elicited by human ANP 99-126, whereas 3 nmol/kg i.v. rat BNP-32 reduced mean arterial pressure without affecting renal function. Furthermore, SQ 28,603 (100 mumol/kg, i.v.) significantly enhanced the cumulative losses of sodium and cyclic GMP stimulated by each of these peptides. In conclusion, the renal and depressor activities of BNP are highly species specific and are significantly potentiated by an inhibitor of NEP 3.4.24.11 in conscious SHR and monkeys. Therefore, protection of endogenous BNP may contribute importantly to the activity of NEP 3.4.24.11 inhibitors in cardiorenal disorders such as hypertension and congestive heart failure.
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PMID:Potentiation of brain natriuretic peptides by SQ 28,603, an inhibitor of neutral endopeptidase 3.4.24.11, in monkeys and rats. 138 30

The effects of endopeptidase 24.11 inhibition on angiotensin-induced changes in plasma angiotensin II, aldosterone, and atrial natriuretic factor concentrations and blood pressure were assessed in normal volunteers. Two groups, each consisting of eight normal volunteers, received stepwise infusions of angiotensin II (2, 4, and 8 ng/kg per minute) on day 5 of dose administration with 25 mg every 12 hours (group 1) or 100 mg every 12 hours (group 2) of an oral inhibitor of endopeptidase 24.11 (UK 79300, candoxatril) or placebo in balanced randomized, double-blind, placebo-controlled crossover studies. Both doses of candoxatril significantly enhanced achieved plasma angiotensin II concentrations during infusions (group 1, p < 0.001; group 2, p < 0.01; overall treatment effect for combined data, p < 0.001). This effect was most pronounced at the highest dose of angiotensin II (treatment-time interaction, p < 0.0001 for combined data) and tended to be more marked with the higher dose of candoxatril (treatment-group interaction, p = 0.08). The pressor response to angiotensin II was clearly enhanced by the lower dose of candoxatril; peak systolic and diastolic pressures exceeded placebo values by approximately 10 mm Hg (p < 0.001 and p < 0.05 for systolic and diastolic pressures, respectively). This effect of candoxatril was absent in group 2, which (unlike group 1) had exhibited a modest natriuretic response (sustained cumulative negative sodium balance, -70 +/- 21 mmol; p < 0.01) to the higher dose of inhibitor. Baseline plasma aldosterone concentrations and the incremental aldosterone response to angiotensin II infusions were not significantly altered by low-dose (group 1) candoxatril.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of inhibition of endopeptidase 24.11 on responses to angiotensin II in human volunteers. 142 42

Three different types of biotinylated endothelin 1 (ET-1) derivatives, [Cys1]-biotinylated ET-1, [Lys9]-biotinylated ET-1, and [Cys1][Lys9]-dibiotinylated ET-1, were obtained when the biotinylation reaction was carried out with sulfosuccinimidyl-6-(biotinamido)hexanoate in an aqueous solvent. The binding of [Lys9]-biotinylated ET-1 to the ET receptor was as efficient as that of natural ET-1, whereas the binding of either [Cys1]-biotinylated ET-1 or [Cys1][Lys9]-dibiotinylated ET-1 was significantly reduced. When ET-1 was reacted with succinimidyl-6-(biotinamido)hexanoate in an organic solvent, ET-1 was exclusively modified at lysine 9. The ET receptor was then isolated from human placenta by affinity chromatography with [Lys9]-biotinylated ET-1 and avidin-agarose. The purified ET receptor was active in ET binding and was resolved by sodium dodecyl sulfate-polyacrylamide gel electrophoresis into two polypeptides with apparent molecular masses of 45 and 35 kDa. The NH2-terminal amino acid sequence indicated that the two polypeptides were from an identical subtype of the ET receptor (ETB, the ligand-nonselective type). A signal peptide from Met1 to Gly26 was missing from the 45-kDa ETB, whereas 64 amino acids at the NH2 terminus were missing from the 35-kDa ETB due to proteolytic cleavage which occurred between Arg64 and Ser65. Indeed, incubation of purified ETB with endopeptidase Arg-C resulted in degradation of the 45-kDa ETB, giving rise to the 35-kDa species by a specific cleavage at Arg64. The 35-kDa ETB was active in binding to ET-1, indicating that the NH2-terminal 64-amino-acid residues are not essential for ligand binding.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Biotin derivatives of endothelin: utilization for affinity purification of endothelin receptor. 145 57

Urodilatin is a recently discovered natriuretic peptide [ANP-(95-126)] of renal origin, with a primary structure similar to ANP-(99-126). However, urodilatin is not biologically inactivated by renal endopeptidase, and it is a more potent natriuretic agent than ANP-(99-126). The present study was carried out to investigate the renal and systemic effects of urodilatin in rats before and after the induction of congestive heart failure (CHF) by creation of an aortocaval fistula (ACF). Administration of urodilatin in incremental doses (0.75-12 micrograms.kg-1.h-1) to Inactin-anesthetized sham-operated control rats resulted in dose-dependent increases in urine flow, glomerular filtration rate (GFR), excretion of guanosine 3',5'-cyclic monophosphate (cGMP), sodium, and potassium, and a significant decrease in mean arterial blood pressure. In rats with ACF the baseline values for GFR and sodium excretion were significantly lower than in control rats. Urodilatin infusion in rats with ACF led to significant increases in urine flow and sodium excretion, but the absolute levels of diuresis and natriuresis were significantly lower in rats with CHF than in normal rats. When urodilatin was infused into rats with ACF pretreated with neutral endopeptidase inhibitor (NEP-I; SQ-28,063 at a dose of 40 mg/kg iv), the absolute urine flow and sodium excretion were not different from that obtained in control rats. Thus the attenuated natriuretic and diuretic response to ANP-(99-126) in heart failure was not observed with urodilatin.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Renal and systemic effects of urodilatin in rats with high-output heart failure. 153

Neutral endopeptidase 24.11 (EC 3.4.24.11) inactivates atrial natriuretic peptide by cleaving the hormone between Cys7 and Phe8, and inhibitors of the enzyme have consequent natriuretic and diuretic properties. The in vivo sites of degradation of this peptide by the zinc-metallopeptidase, however, remain to be established. Because an endopeptidase-24.11-like activity has recently been reported in the rat mesenteric artery, we have further investigated the degradation of atrial natriuretic peptide in vascular tissue. Endopeptidase-24.11 activity was detected in solubilized membrane preparations from rat and rabbit vascular tissue, using [3H]D-Ala2-leucine enkephalin as substrate, and both rabbit and rat aorta preparations were also found to cleave atrial natriuretic peptide between Cys7 and Phe8. In both cases, hydrolysis was inhibited by neutral endopeptidase inhibitors, with Ki values close to their Ki values for the pure enzyme. In preparations of rabbit aorta denuded of endothelium by saponin treatment, the hydrolysis of the Gly3-Phe4 bond of [3H]D-Ala2-leucine enkephalin and the Cys7-Phe8 bond of atrial natriuretic peptide was reduced by greater than 90%. The high performance liquid chromatography method used to follow the degradation of atrial natriuretic peptide differed from previously published procedures, in that samples to be injected were first treated with excess dithiothreitol to reduce the Cys7-Cys23 disulfide bridge. This facilitated the separation of the intact peptide and its metabolites. The presence of the 94-kDa neutral endopeptidase in rabbit aortic tissue was definitively established using a new potent 125I-labeled inhibitor, [125I]RB104 [2-[(3-[125I]iodo-4-hydroxy)phenylmethyl]-4-N-[3- hydroxyamino-3-oxo-1-phenylmethyl propyl]amino-4-oxobutanoic acid] (Ki, 30 pM), which selectively labeled the enzyme after sodium dodecyl sulfate-polyacrylamide gel electrophoresis of the membrane preparations. Therefore, despite its low concentrations in the vasculature, the presence of endopeptidase-24.11 almost exclusively in endothelial tissue suggests that the enzyme is ideally localized to inactivate circulating atrial natriuretic peptide.
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PMID:A 94-kDa protein, identified as neutral endopeptidase-24.11, can inactivate atrial natriuretic peptide in the vascular endothelium. 153 67

We have isolated heparan sulfate proteoglycans (HSPGs) from cloned rat microvascular endothelial cells using a combination of ion-exchange chromatography, affinity fractionation with antithrombin III (AT III), and gel filtration in denaturing solvents. The anticoagulantly active heparan sulfate proteoglycans (HSPGact) which bind tightly to AT III bear mainly anticoagulantly active heparan sulfate (HSact) whereas the anticoagulantly inactive heparan sulfate proteoglycans (HSPGinact) possess mainly anticoagulantly inactive heparan sulfate (HSinact). HSact and HSinact were also isolated by a combination of ion-exchange chromatography, treatment with protease and chondroitin ABC lyase, and affinity fractionation with AT III. HSact and HSinact have molecular sizes of about 25-30 kDa with the same overall composition of monosaccharides except that HSact exhibits about nine glucuronsyl 3-O-sulfated glucosamines/chain whereas HSinact possesses about three glucuronsyl 3-O-sulfated glucosamines/chain. Direct isolation of the AT III-binding site of HSact by exposing carbohydrate chains to Flavobacterium heparitinase in the presence of protease inhibitor revealed only a single interaction site which contained two to three glucuronsyl 3-O-sulfated glucosamine residues. The core proteins of HSPGact and HSPGinact were isolated by treatment with Flavobacterium heparitinase and purification by ion-exchange chromatography. The molecular sizes of the core proteins were established by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and their primary structures were examined by cleavage with trypsin or endopeptidase Glu-C as well as separation of peptides by reverse-phase high performance liquid chromatography. The results showed that both sets of core proteins exhibited three major components with molecular sizes of 50, 30, and 25 kDa, respectively. The 25-kDa species appears to be a proteolytic degradation product of the 30-kDa species. The peptide mapping revealed that HSPGact and HSPGinact possess extremely similar core proteins.
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PMID:Isolation and characterization of heparan sulfate proteoglycans produced by cloned rat microvascular endothelial cells. 153 64

Twenty strains of Staphylococcus aureus from ATCC type cultures and strains found in clinical studies were cultivated, and their endopeptidase activity specific for glutamic acid was surveyed using benzyloxycarbonyl-Phe-Leu-Glu-p-nitroanilide (Z-Phe-Leu-Glu-pNA) as a substrate. The activity was found in two of the strains, ATCC 12600 and ATCC 25923. A glutamic acid-specific proteinase, which we propose to call SPase, was purified from the culture filtrate of S. aureus strain ATCC 12600 by a series of column chromatographies on DEAE-Sepharose twice and on Sephacryl S-200. A single band was observed on sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) of the purified SPase. The molecular weight of the proteinase was estimated to be 34000 by SDS-PAGE. When synthetic peptides and oxidized insulin B-chain were used as substrates, SPase showed the same substrate specificity as V8 proteinase, EC 3.4.21.9, which specifically cleaves peptide bonds on the C-terminal side of glutamic acid and aspartic acid. Examination with p-nitroanilides of glutamic acid and aspartic acid as substrates, however, revealed that both proteinases are highly specific for a glutamyl bond in comparison with an aspartyl bond. To elucidate the complete primary structure of SPase, its gene was cloned from genomic DNA of S. aureus ATCC 12600, and the nucleotide sequence was determined. Taking the amino acid sequence of SPase from the NH2-terminus to the 27th residue into consideration, the clones encode a mature peptide of 289 amino acids, which follows a prepropeptide of 68 residues. SPase was confirmed to be a novel endopeptidase specific for glutamic acid, being different from V8 proteinase which consists of 268 amino acids.
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PMID:Purification, characterization and gene cloning of a novel glutamic acid-specific endopeptidase from Staphylococcus aureus ATCC 12600. 159 45


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