EC:3.4.23.15 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.23.15 (renin)
35,795 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The vasoconstrictor angiotensin II and atrial natriuretic peptide (ANP) are oppositely involved in the development of heart failure, as modeled by myocardial infarction (MI) in rats. MI is a model also characterized by sodium retention despite the elevated plasma ANP levels, showing a desensitization of responses to ANP. S21402 (RB105) {N-[2S,3R-(2-mercaptom-ethyl-1-oxo-3-phenylbutyl) L-alanine]} is a dual inhibitor that inhibits both neutral endopeptidase (Ki = 1.7 +/- 0.3 nM) and angiotensin-converting enzyme (Ki = 4.2 +/- 0.5 nM). Inhibition of neutral endopeptidase protects endogenous ANP, and inhibition of angiotensin-converting enzyme blocks angiotensin II production, whereas inhibition of both peptidases is required to protect endogenous bradykinin (BK). Induction of MI in rats, by ligation of the left coronary artery, increased the base-line plasma ANP, cyclic GMP (cGMP) and renin concentrations, which were related to the degree of MI (moderate and severe MI rats). Urinary excretion of ANP, cGMP and BK was also increased in MI rats and was linked to the infarction size. S21402 (RB105) (25 mg/kg bolus plus 25 mg/kg/hr i.v.) decreased the mean blood pressure and increased natriuresis in MI rats whatever the degree of MI. S21402 (RB105) induced an increase in plasma renin in MI rats despite the elevated base-line levels. S21402 (RB105) did not alter the plasma in ANP in MI rats. However, plasma cGMP was increased by the dual inhibitor, as a function of the infarction severity. Urinary excretion of ANP, cGMP and BK was also increased by S21402 (RB105), proportionally to the infarction size. Whatever the degree of MI, S21402 (RB105) was able to induce natriuresis, characterized by a desensitization of ANP-induced renal responses. Inhibition of both angiotensin-converting enzyme and neutral endopeptidase by potentiating endogenous ANP and BK and blocking angiotensin II production could be an interesting therapeutic approach in heart failure.
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PMID:Inhibition of both angiotensin-converting enzyme and neutral endopeptidase by S21402 (RB105) in rats with experimental myocardial infarction. 876 6

Using a cyclolinopeptide A analogue, the hydrophobic cyclic peptide c(-Ala-Lys-Pro-Phe-Phe-Ala-Lys-Pro-Phe-Phe-), termed CDP (cyclodecapeptide), as ligand in affinity chromatography, hepatocellular peptide binding proteins were isolated from the integral part of plasma membranes and the cytosol. The sequence of the isolated protein with MW of 50 kDa from the integral part of the plasma membrane fraction was identical to cytochrome P450 II C13 and cytochrome P450 II C22, whereas the sequence of the 54 kDa protein was identical to 3-hydroxyandrogen-UDP-glucuronosyltransferase. These proteins have also been described as binding proteins for bile acids. As shown in earlier studies, bile acids and CDP also compete for uptake into hepatocytes. In the cytosol, a further known bile acid binding protein, the glutathione-S-transferase (G-S-T) subunit Yb1, was isolated and sequenced as binding protein for CDP and also for a further cyclopeptide, the somatostatin analogue OO8, and a linear peptide with renin-inhibiting activity, EMD 55068. As shown in uptake studies using isolated basolateral plasma membrane vesicles, G-S-T was able to increase the uptake of EMD 51921, a linear peptide with renin-inhibiting potency, into the vesicles when the latter were preloaded with G-S-T. The binding of the substrate to the outside of the preloaded vesicles was not different than binding to unloaded vesicles. The maximal transport rate of the carrier-mediated/facilitated diffusion and the rate of permeation, however, were doubled in the presence of G-S-T, pointing to the involvement of intracellular binding proteins such as G-S-T in the unloading of the carrier protein and in the reduction of the free substrate concentration.
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PMID:Binding proteins for cyclic and linear oligopeptides in plasma membranes and the cytosol of rat hepatocytes. 931 75

A series of renin inhibitors containing the dipeptide transition state mimics (2R,4S,5S)-5-amino-4-hydroxy-2-methyl-6-cyclohexyl hexanoic acid (Cha-psi[CH(OH)CH2]Ala) and (2R,4S,5S)-5-amino-4-hydroxy-2-isopropyl-6-cyclohexyl hexanoic acid (Cha-psi[CH(OH)CH2]Val) were prepared. A structure-activity study, using pseudopeptide (Boc-Phe-His-Leu-psi[CH(OH)CH2]Val-Ile-His-OH) as our lead structure, led to a new series of inhibitors, which correspond to tripeptides and contain no natural amino acids. For example, R,S-Bpma-Ape-Cha-psi[CH(OH)CH2]Ala-NH2 (IC50 = 1.26 nM against human plasma renin at pH 6.0; molecular weight = 564) has only two thirds of the molecular weight but twice the potency of our original lead. This new class of low molecular weight renin inhibitor displays excellent specificity toward human renin versus the related aspartic proteinase pepsin and angiotensin-1-converting enzyme. Examples are given of selected inhibitors showing encouraging evidence for intestinal absorption after intracolonic and oral administration in male Sprague-Dawley rats.
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PMID:Synthesis and biological activity of potent, low molecular weight renin inhibitors. 935 63

The substrate specificities and kinetic properties of proteinase A, an intracellular aspartic proteinase from the yeast Saccharomyces cerevisiae, were determined using a series of synthetic chromogenic peptides with the general structure P5-P4-P3-P2-Phe-(NO2)Phe-P2'-P3' [P5, P4, P3, P2, P2', P3' are various amino acids; (NO2)Phe is p-nitro-L-phenylalanine]. The nature of the residues occupying the NH2-terminal region of the substrate had a strong influence on the kinetic constants. Among those tested, Ala-Pro-Ala-Lys-Phe-(NO2)-Phe-Arg-Leu had the best kinetic constants (Km = 0.012 mM, kcat = 14.4 s-1, kcat/Km = 1,200 M-1.s-1). Compared with such aspartic proteinases as pepsin, cathepsin D, and renin, the substrate specificity of proteinase A was unique. Based on these results, a novel fluorescent substrate, MOCAc-Ala-Pro-Ala-Lys-Phe-Phe-Arg-Leu-Lys(Dnp)-NH2, was developed for the sensitive measurement of proteinase A.
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PMID:Substrate specificities and kinetic properties of proteinase A from the yeast Saccharomyces cerevisiae and the development of a novel substrate. 964 56

The renin-angiotensin-aldosterone system plays an important role in large artery structure and blood pressure homeostasis. Among the genes coding for different components of this system, the aldosterone synthase (CYP11B2) gene could play an important role, but has been less investigated. We examined the role of two variations of the aldosterone synthase gene (CYP11B2), one located in the promoter of the gene, T-344C, the other in the 7th exon, the T4986C (Val/Ala), on plasma levels of renin and aldosterone, blood pressure, and arterial stiffness in subjects with essential hypertension. Subjects of European origin (n = 216) were examined during a 1-day hospitalization. Treatment, if any, was interrupted for at least 21 days before. Arterial stiffness was evaluated by measuring pulse wave velocity. Renin and aldosterone levels were evaluated by using a radioimmunoassay. The two polymorphisms were in complete linkage disequilibrium, as suggested by the presence of only three haplotypes in this population (T-344T4986, T-344C4986, and C-344T4986). The mean age and blood pressure values were similar in the different genotypes. Presence of the -344C allele was associated with elevated levels of plasma aldosterone: 90 +/- 8 pg/mL for TT (n = 67), 110 +/- 6 pg/mL for TC (n = 107), and 129 +/- 10 pg/mL for CC (n = 42) (test of codominant effect, P < .002 after adjustment for age and 24-h Na+ urine excretion). Pulse wave velocity was also increased in the -344C allele carriers: 11.3 +/- 0.4 m/sec, 12.7 +/- 0.3 m/sec, 12.0 +/- 0.5 m/sec in the TT, TC, and CC genotypes, respectively. No association was found between the T4986C polymorphism and the studied variables. In patients with essential hypertension, a variant on the promoter region of the aldosterone synthase gene is associated with significant differences in plasma aldosterone levels and arterial stiffness. These differences are not associated with variations in blood pressure levels.
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PMID:Genetic determination of plasma aldosterone levels in essential hypertension. 968 48

Haemolytic-uremic syndrome (HUS) is the leading cause of acute renal failure in the childhood. It is characterised by microangiopathic hemolytic anemia, thrombocytopenia, acute renal failure and injury of the renal microvascular endothelium. In HUS the condition of proteolytic kallikrein-kinin system is unknown. The renal KKS seems to participate in the regulation of blood pressure, control of sodium and water excretion, renal vascular resistance and renin release. In this study the role kallikrein in the developing HUS was studied. The general activity of kallikrein in plasma and urine was determined by trypsin-like peptidohydrolase activity (TP), which was measured using substrate Z-D-Ala-Leu-Arg-pNa. Chymotrypsin-like protease activity (ChP) was measured using substrate Glp-Ala-Ala-Leu-pNa. Clinical data were analysed on 60 pediatric patients with HUS, 29 girls and 31 boys, ranging in the age from 3 months to 11 years. TP and ChP levels were determined in different periods of HUS (anuria, diuresis beginning, polyuria, recovery) in serum and urine. In acute phase TP and ChP activities increased significantly. In diuresis recovery serum TP activity was higher, but urine TP level became normal. In dynamic serum and urine ChP levels had tendency to decrease. The present work showed that TP and ChP levels demonstrated activity of pathological renal process and condition of glomerules.
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PMID:[Serine proteinase activity in children with hemolytic-uremic syndrome]. 970 32

CYP11B1 (11beta-hydroxylase) and CYP11B2 (aldosterone synthase) are 93% identical mitochondrial enzymes that both catalyze 11beta-hydroxylation of steroid hormones. CYP11B2 has the additional 18-hydroxylase and 18-oxidase activities required for conversion of 11-deoxycorticosterone to aldosterone. These two additional C18 conversions can be catalyzed by CYP11B1 if serine-288 and valine-320 are replaced by the corresponding CYP11B2 residues, glycine and alanine. Here we show that such a hybrid enzyme also catalyzes conversion of 11-deoxycortisol to cortisol, 18-hydroxycortisol, and 18-oxocortisol. These latter two steroids are present at elevated levels in individuals with glucocorticoid suppressible hyperaldosteronism (GSH) and some forms of primary aldosteronism. Their production by the recombinant CYP11B enzyme is enhanced by substitution of further amino acids encoded in exons 4, 5, and 6 of CYP11B2. A converted CYP11B1 gene, containing these exons from CYP11B2, would be regulated like CYP11B1, yet encode an enzyme with the activities of CYP11B2, thus causing GSH or essential hypertension. In a sample of 103 low renin hypertensive patients, 218 patients with primary aldosteronism, and 90 normotensive individuals, we found a high level of conversion of CYP11B genes and four cases of GSH caused by unequal crossing over but no gene conversions of the type expected to cause GSH.
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PMID:Recombinant CYP11B genes encode enzymes that can catalyze conversion of 11-deoxycortisol to cortisol, 18-hydroxycortisol, and 18-oxocortisol. 981 82

The M235T polymorphism of human angiotensinogen is associated with essential and pregnancy-induced hypertension. A covalent complex is formed between angiotensinogen and the proform of the eosinophil major basic protein (proMBP) during pregnancy. The sequence of human angiotensinogen contains four cysteines. Their function was analyzed. Presence of free cysteines was demonstrated by their alkylation with iodo[14C]acetic acid. A disulfide bond between Cys18 and Cys138 using a fully N-deglycosylated mutant of human angiotensinogen was identified by tryptic digestion and mass spectrometry. We produced angiotensinogen. proMBP complex by co-transfection of COS-7 cells and by co-culturing transfected CHO-K1 cells. Experiments with 8 mutated recombinant angiotensinogen, in which one or more of the four cysteines were replaced by alanine, demonstrated that Cys232 is involved in complex formation and could interact with the M235T variant. The angiotensinogen.proMBP complex was isolated by molecular sieving. Hydrolysis of the complex by human renin was 7 times slower than hydrolysis of monomeric form, whatever the M235T genotype. The complex:monomeric angiotensinogen ratio was greater for Met235 (72%) than for Thr235 (58%) angiotensinogen. These data suggest a new pathophysiological explanation for the genetic association between M235T angiotensinogen polymorphism and pregnancy-induced hypertension.
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PMID:Role of cysteine residues in human angiotensinogen. Cys232 is required for angiotensinogen-pro major basic protein complex formation. 985 16

We synthesized short chromogenic peptidyl-Arg-p-nitroanilides containing either (Galbeta)Ser or (Glcalpha,beta)Tyr at P2 or P3 sites as well as O-acetylated sugar moieties and studied their hydrolysis by bovine trypsin, papain, human tissue kallikrein and rat tonin. For comparison, the susceptibility to these enzymes of Acetyl-X-Arg-pNa and Acetyl-X-Phe-Arg-pNa series, in which X was Ala, Phe, Gln and Asn were examined. We also synthesized internally quenched fluorescent peptides with the amino acid sequence Phe8-His-Leu-Val-Ile-His-Asn14 of human angiotensinogen, in which [GlcNAcbeta]Asn was introduced before Phe8 and/or after His13 and ortho-aminobenzoic acid (Abz) and N-[2-, 4-dinitrophenyl]-ethylenediamine (EDDnp) were attached at N- and C-terminal ends as a donor/receptor fluorescent pair. These peptides were examined as substrates for human renin, human cathepsin D and porcine pepsin. The chromogenic substrates with hydrophilic sugar moiety increased their susceptibility to trypsin, tissue kallikrein and rat tonin. For papain, the effect of sugar depends on its position in the substrate, namely, at P3 it is unfavorable, in contrast to the P2 position that resulted in increasing affinity, as demonstrated by the higher inhibitory activity of Ac-(Gal3)Ser-Arg-pNa in comparison to Ac-Ser-Arg-pNa, and by the hydrolysis of Ac-(Glcalpha,beta)Tyr-Arg-pNa. On the other hand, the acetylation of sugar hydroxyl groups improved hydrolysis of the susceptible peptides to all enzymes, except tonin. The P'4 glycosylated peptide [Abz-F-H-L-V-I-H-(GIcNAcbeta)N-E-EDDnp], that corresponds to one of the natural glycosylation sites of angiotensinogen, was shown to be the only glycosylated substrate susceptible to human renin, and was hydrolysed with lower K(m) and higher k(cat) values than the same peptide without the sugar moiety. Human cathepsin D and porcine pepsin are more tolerant to substrate glycosylation, hydrolysing both the P'4 and P4 glycosylated substrates.
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PMID:Chromogenic and fluorogenic glycosylated and acetylglycosylated peptides as substrates for serine, thiol and aspartyl proteases. 1019 48

The pH dependence of the reaction of human renin with sheep angiotensinogen had a couple of peaks at pH 6.5 and 8.7. The renin activity at pH 8.7 was 1.4 times higher than that at pH 6.5. After the substitutions of Phe, Ala, and His for Tyr83 of human renin, the peak at pH 6.5 could be observed but the peak at pH 8.7 disappeared. At pH 6.5, these substitutions reduced the kcat of human renin to 11.1, 1.31, and 3.49% of that of wild-type renin, respectively, while their Km remained at similar levels to that of the wild type. These results indicate that Tyr83 of human renin contributes to the renin-angiotensinogen reaction at both pHs and it is essential for the catalytic reaction particularly at the basic pH.
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PMID:Tyrosine-83 of human renin contributes to biphasic pH dependence of the renin-angiotensinogen reaction. 1042 7

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