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)

The hydrolysis of the porcine 26-residue brain natriuretic peptide (BNP-26) and its counterpart human 28-residue atrial natriuretic peptide (alpha-hANP) by pig membrane preparations and purified membrane peptidases was studied. When the two peptides were incubated with choroid plexus membranes, the products being analysed by h.p.l.c., alpha-hANP was degraded twice as fast as BNP. The h.p.l.c. profiles of alpha-hANP hydrolysis, in short incubations with choroid plexus membranes, yielded alpha hANP' as the main product, this having been previously shown to be the result of hydrolysis at the Cys7-Phe8 bond. In short incubations this cleavage was inhibited 84% by 1 microM-phosphoramidon, a specific inhibitor of endopeptidase-24.11. BNP-26 was hydrolysed by choroid plexus membranes, kidney microvillar membranes and purified endopeptidase-24.11 in a manner that yielded identical h.p.l.c. profiles. In the presence of phosphoramidon, hydrolysis by the choroid plexus membranes was 94% inhibited. Captopril had no effect and, indeed, no hydrolysis of BNP-26 by peptidyl dipeptidase A (angiotensin-converting enzyme) was observed even after prolonged incubation with the purified enzyme. The stepwise hydrolysis of BNP-26 by endopeptidase-24.11 was investigated by sequencing the peptides produced during incubation. The initial product resulted from hydrolysis at Ser14-Leu15, thereby opening the ring. This product (BNP') was short-lived; further degradation involved hydrolysis at Ile12-Gly13, Arg8-Leu9, Gly17-Leu18, Val22-Leu23, Arg11-Ile12 and Cys4-Phe5. Thus endopeptidase-24.11 is the principal enzyme in renal microvillar and choroid plexus membranes hydrolysing BNP-26 and alpha-hANP.
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PMID:The hydrolysis of brain and atrial natriuretic peptides by porcine choroid plexus is attributable to endopeptidase-24.11. 214 50

The metabolism of brain natriuretic peptide (BNP) was studied in rats infused with 125I-BNP. During the infusion, the intact peptide was progressively converted to labelled degradative products, separated into nine peaks of radioactivity on HPLC, and accounting for approximately 70% of total plasma radioactivity at the plateau phase. After stopping the infusion, intact BNP disappeared with a half-life of 1.23 +/- 0.35 min whereas the labelled fragments accounted for progressively greater proportion of total activity. The degradation of BNP was significantly reduced by phosphoramidon (t1/2, 11.28 +/- 0.49 min) and captopril (t1/2, 6.99 +/- 0.34 min). A maximal effect was observed when both protease inhibitors were given simultaneously (t1/2, 15.3 +/- 0.48 min). When 125I-BNP was incubated in vitro with purified endopeptidase 24.11 (E-24.11) and angiotensin-converting enzyme (ACE), there was a time-dependent disappearance of the intact peptide associated with the generation of six labelled fragments, corresponding to fragments found in vivo. In serum the peptide was rapidly degraded with a half-life of 4.6 +/- 0.1 min, and the pattern of labelled fragments was similar to that observed during in vitro incubation with ACE. Captopril significantly reduced the rate of degradation of BNP in serum. The results allow to associate two define enzyme activities, namely E-24.11 and ACE, with the metabolism of BNP in vitro. They also indicate that, despite a close homology between ANP and BNP, the two peptides undergo different pathways of clearance.
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PMID:In vivo metabolism of brain natriuretic peptide in the rat involves endopeptidase 24.11 and angiotensin converting enzyme. 217 78

Porcine brain natriuretic peptide of 26 amino acid residues (pBNP-26) is inactivated by endoprotease-24.11 (EC 3.4.24.11) of kidney cortical membranes. In contrast to human alpha atrial natriuretic peptide/cardiodilatin (ANP/CDD) showing a single major cleavage within the disulfide-linked loop between Cys and Phe in position 7 and 8, pBNP-26 is cleaved at several sites. Although both pBNP-26 and ANP/CDD exhibit Cys-Phe peptide bonds at the corresponding positions this bond is not cleaved in BNP-26.
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PMID:Degradation of porcine brain natriuretic peptide (pBNP-26) by endoprotease-24.11 from kidney cortical membranes. 274 83

The natriuretic peptide family consists of three members: atrial natriuretic peptide, brain natriuretic peptide, and C-type natriuretic peptide. Atrial and brain natriuretic peptides possess similar effects, causing natriuresis, vasodilation, and suppression of the renin-angiotensin-aldosterone system. C-type natriuretic peptide has been suggested to exert its predominant effect on the vasculature, eliciting vasodilation and inhibiting the proliferation of vascular smooth muscle cells. Numerous studies have broadened our current knowledge of the regulation of natriuretic peptide gene expression, biosynthesis, and secretion, as well as structure of specific receptors. This has led to a better understanding of the renal, cardiovascular, and endocrine actions of natriuretic peptides in both normal and pathophysiological states, including hypertensive disease. Development of nonpeptide neutral endopeptidase inhibitors and antagonists for natriuretic peptide receptors may reveal the range of potential therapeutic application of atrial and other natriuretic peptides in hypertension.
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PMID:The natriuretic peptides in hypertension. 749 58

To explore the mechanisms of the renal effects of neutral endopeptidase (NEP) inhibition, the effects of an NEP inhibitor, candoxatril (UK 79,300; UK), in Dahl salt-sensitive (SS) and salt-resistant (SR) rats were examined. UK dose-dependently decreased blood pressure (BP) in SS rats (20 mg/kg: 174 +/- 5 vs. 155 +/- 8 mm Hg, p < 0.01) but not in SR rats. Urinary sodium excretion (UNaV) of both rat strains receiving high-salt diets was increased to a greater extent than that of rats receiving low-salt diets. Basal plasma atrial natriuretic peptide (ANP) level in hypertensive SS rats was higher than in SR rats (192 +/- 18 vs. 118 +/- 24 pg/ml, p < 0.05). UK increased ANP levels in the plasma and urine two- and 11-fold, respectively. UK-induced increases in UNaV, urinary cyclic GMP, and plasma ANP concentrations were significantly augmented by coadministration of a clearance receptor agonist, C-ANF(4-23) or brain natriuretic peptide (BNP). Thus, the effects of NEP inhibition appear to be potentiated by the reduced receptor-mediated metabolism of ANP. This may explain the greater response to the NEP inhibitor in Dahl rats with hypertension or high-salt feeding.
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PMID:Mechanisms of the natriuretic effects of neutral endopeptidase inhibition in Dahl salt-sensitive and salt-resistant rats. 751 59

1. Inhibitors of neutral endopeptidase (NEP) EC 3.4.24.11 were developed to regulate endogenous levels of the natriuretic and vasodilatory hormone atrial natriuretic peptide (ANP). The selective NEP inhibitor SQ 28603 enhanced the increases in plasma ANP and urinary excretion of ANP, cyclic GMP and sodium stimulated by infusion of human ANP in conscious monkeys. SQ 28603 also potentiated the renal and depressor responses to rat brain natriuretic peptide (BNP) in conscious spontaneously hypertensive rats (SHR) and human BNP in conscious monkeys. Therefore, selective NEP inhibitors protected both natriuretic peptides from degradation in vivo and enhanced their biological activities. 2. Selective NEP inhibitors lowered blood pressure in conscious DOCA/salt hypertensive rats and SHR with antihypertensive activity similar to that of exogenous ANP. Furthermore, simultaneous treatment with an angiotensin converting enzyme (ACE) inhibitor enhanced the depressor activity of the NEP inhibitor in SHR. 3. SQ 28603 stimulated urinary excretion of cyclic GMP and sodium in a dose-related manner in conscious dogs with tachycardia-induced heart failure. Addition of the ACE inhibitor captopril significantly reduced blood pressure and systemic vascular resistance while sustaining sodium excretion and increasing cardiac output, glomerular filtration rate and renal blood flow. Therefore, combined NEP and ACE inhibition produced a unique haemodynamic and renal profile in dogs with pacing-induced heart failure. 4. The novel dual metalloprotease inhibitor BMS-182657 potentiated the renal responses to exogenous ANP and suppressed the pressor response to angiotensin I in conscious monkeys, indicating in vivo inhibition of both NEP and ACE.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Potentiation of natriuretic peptides by neutral endopeptidase inhibitors. 776 36

We developed a rat model of heart failure induced by myocardial infarction (MI) which preserves responsiveness to exogenously administered natriuretic peptide, and investigated the potentiating action of neutral endopeptidase (NEP) inhibition on the renal response to endogenous natriuretic peptide in MI rats, comparing with that in the established cardiac-failing model with arterio-venous fistula (AVF). The endogenous plasma concentration of alpha-rat atrial natriuretic peptide (alpha-rANP) in the MI rat was 6.4-fold higher than that in the normal rat, and intravenous infusion of phosphoramidon (165 nmol/min/kg), an NEP inhibitor, induced larger increases in circulating alpha-rANP levels and natriuresis in MI rats than in normal controls. The maximal natriuretic effect of phosphoramidon (165 nmol/min/kg) was equal to that of exogenously administered alpha-rANP (100 pmol/min/kg) in MI rats, whereas plasma alpha-rANP concentration under NEP inhibition was much lower than that after administration of alpha-rANP. The endogenous alpha-rANP levels in AVF rats were as high as those in MI rats. However, the natriuretic effect of phosphoramidon was less in AVF rats than in MI rats, which was consistent with the decreased natriuretic activity observed with administration of exogenous to alpha-rANP in the AVF rat. These results indicate that the natriuretic effect of NEP inhibition is dependent on elevated endogenous alpha-rANP levels in cardiac-failing rats, but cannot be accounted for simply in terms of the increase in circulating alpha-rANP levels. Endogenous natriuretic peptide-mediated natriuresis under NEP inhibition also appears to correlate with the responsiveness to the exogenously administered peptide.
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PMID:Natriuretic peptide-potentiating actions of neutral endopeptidase inhibition in rats with experimental heart failure. 789 35

Endopeptidase-24.11 (E-24.11, EC 3.4.24.11) is widely believed to play a physiological role in metabolizing atrial natriuretic peptide (ANP). Since the discovery of ANP, new natriuretic peptides have been isolated and other peptides synthesized as receptor ligands. The hydrolysis in vitro of six related peptides by the endopeptidase has been studied, mainly by h.p.l.c. The initial attack on the 32-residue form of pig brain natriuretic peptide (pBNP-32) was shown to be at the Ser20-Leu21 bond, as had been previously shown for the 26-residue form. In contrast, human brain natriuretic peptide-32 (hBNP-32), which differs in ten residues from pBNP-32, was attacked first at the Met4-Val5 bond, releasing the N-terminal tetrapeptide, and only later at bonds within the ring: at Arg17-Ile18 and subsequently at four other sites. Urodilatin, which has a four-residue extension at the N-terminus compared with alpha-human atrial natriuretic peptide-28 (alpha-hANP), was degraded at about half the rate of the latter, though the C-terminal Phe-Arg-Tyr was released at the same rate. The 22-residue C-type natriuretic peptide was hydrolysed more rapidly than alpha-hANP, as were two C-receptor ligands (peptides with deletions within the ring): C-ANP4-23 (rANP4-23 des-Gln18,Ser19,Gly20,Leu21,Gly22) and SC 46542 (hANP5-28 des-Phe8,Gly9,Ala17,Gln18). Angiotensin-converting enzyme failed to hydrolyse pBNP-32, hBNP-32 or 125I-rat (r) ANP, even after prolonged incubation. Km and kcat values were determined for the hydrolysis of alpha-hANP, porcine BNP-26, porcine BNP-32 and 125I-rANP by E-24.11. Ki values were determined for six peptides, alpha-hANP, urodilatin, hBNP-32, C-type natriuretic peptide (CNP), SC 46542 and C-type natriuretic peptide (C-ANP4-23), in radiometric assays of E-24.11 with either [125I] insulin B chain or [125I] rANP as substrate. The Ki values (2.5-13 microM) for CNP were the lowest of any of the group, whereas those for hBNP-32 (151-172 microM) were the highest. The physiological significance of these results is discussed, especially in regard to the relative resistance of hBNP-32 to attack and the ability of the C-receptor ligands to compete with natriuretic peptides for hydrolysis by E-24.11.
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PMID:Hydrolysis of human and pig brain natriuretic peptides, urodilatin, C-type natriuretic peptide and some C-receptor ligands by endopeptidase-24.11. 809 89

To assess clearance mechanisms of atrial and brain natriuretic peptides in the circulation, we examined the effects of a neutral endopeptidase (NEP) inhibitor and a clearance receptor ligand on plasma concentrations of the peptides in normal rats. Plasma concentrations of endogenous alpha-rat atrial natriuretic peptide (alpha-rANP) were not significantly elevated by intravenous infusion of a NEP inhibitor, phosphoramidon, but were elevated threefold by intravenous infusion of a clearance receptor ligand, des(Gln18-Gly22)-rANP(4-23)-NH2 [C-ANF(4-23)]. On the other hand, the clearance of alpha-rANP given intravenously at the pharmacological dose, 600 pmol/min/kg for 2 min, was decreased to one-third by the administration of phosphoramidon, although the administration of C-ANF(4-23) did not significantly decrease the clearance. The clearance of rat brain natriuretic peptide (rBNP) given at 600 pmol/min/kg for 2 min was approximately 38% lower than that of alpha-rANP. The effect of phosphoramidon on the clearance of rBNP was not significant and was similar to that of C-ANF(4-23). These results suggest that clearance receptor is involved in the clearance of the physiological levels of alpha-rANP and that NEP plays a major role in the clearance of a pharmacological dose of alpha-rANP, at which clearance receptors are thought to be saturated, and also indicate a pharmacokinetic difference between alpha-rANP and rBNP.
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PMID:Clearance mechanisms of atrial and brain natriuretic peptides in rats. 814 57

Due to its physiological and pharmacological action ANF could be an ideal diuretic and vasorelaxation product in the treatment of oedema and essential hypertension. Experimental and clinical investigations in oedematous conditions revealed a very slight diuretic and natriuretic effect of ANF, as compared with healthy subjects. This is due to the reduced renal perfusion pressure, the increased RAAS activity, enzymatic degradation of ANF by endopeptidase and also its inactivation via C-receptors. Moreover the use of ANF is very limited due to its short half-life and peptide structure. In recent years therefore new possibilities are sought how to influence the metabolism of endogenous ANF and thus increase its activity. Neutral endopeptidase inhibitors (NEP) inhibit ANF degradation, increase thus its plasma level and in cardiac weakntlakess have a marked diuretic and natriuretic effect. The administration of NEP inhibitors in patients with essential hypertension did not reveal so far an adequate effect on blood pressure. Inhibitors of C-receptors potentiate also the effect of endogenous ANF. In experiments they enhance Na excretion and lead to a drop of blood pressure. Recently another natriuretic peptide was detected--urodilatine. In experimental and clinical studies in cardiac failure urodilatine administration leads to an increase of diuresis and natriuresis greater than after ANF. Haemodynamic effects after urodilatine are also greater than after ANF whereby urodilatine does not cause reflex tachycardia and is resistant to peptidase degradation. Its therapeutic administration is a new perspective in the treatment of oedematous conditions and essential hypertension.
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PMID:[Use of natriuretic peptides in clinical practice]. 818 76


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