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:3.4.15.1 (ACE)
18,300 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The contribution of endogenous kinins to the chronic antihypertensive effect of angiotensin converting enzyme inhibitors was investigated in two-kidney, one clip hypertensive Wistar rats, using the new bradykinin B2-receptor antagonist HOE 140 (D-Arg, [Hyp3, Thi5, D-Tic7, Oic8]-bradykinin). In a first protocol, rats were pretreated orally with the angiotensin converting enzyme inhibitor ramipril (1 mg/kg per day), for 4 weeks. Acute blockade of bradykinin receptors by intravenous injections of HOE 140 at doses of 8.4 and 100 micrograms/kg, which inhibited the depressor responses to exogenous bradykinin, did not affect the antihypertensive effect of ramipril in these animals. Bradykinin receptors were then blocked chronically by subcutaneous infusion of HOE 140 (500 micrograms/kg per day) via osmotic minipumps for 6 weeks, while ramipril treatment was continued. HOE 140 partially reversed the antihypertensive effect of ramipril from 115.3 +/- 4.6 to 123.8 +/- 3.3 mm Hg (mean arterial blood pressure) after 3 weeks and to 121.3 +/- 2.9 mm Hg after 6 weeks. In contrast, in controls (ramipril plus subcutaneous vehicle infusion) mean arterial blood pressure decreased further from 112.0 +/- 6.0 to 110.3 +/- 4.9 mm Hg after 3 weeks and to 103.7 +/- 5.0 mm Hg after 6 weeks (p less than 0.05 and p less than 0.01, HOE 140 versus controls). Plasma catecholamines were not significantly different between the two groups at the end of the experiment, indicating that the partial reversal of the antihypertensive effect was not due to a bradykinin-like agonistic effect on catecholamine release.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Chronic kinin receptor blockade attenuates the antihypertensive effect of ramipril. 131 60

Bradykinin plays a role in the regulation of coronary blood flow. Under basic conditions the vasodilating effect is primarily mediated by stimulation of the endogenous nitrovasodilator endothelium-derived relaxing factor (EDRF). This effect is shortlasting but can be increased and prolonged by sulfhydryl(SH)-containing agents. ACE-inhibitors may cause coronary vasorelaxation by a bradykinin-mediated release of EDRF. This can be potentiated by the presence of SH-groups, as was shown with captopril and zofenoprilat. As a consequence, SH-containing ACE-inhibitors may potentiate nitrates, because they act as exogenous nitrovasodilators, and reverse tolerance to their therapeutic effect.
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PMID:The effect of bradykinin on coronary flow and its potentiation by SH-containing ACE-inhibitors. 146 53

In isolated human detrusor preparations angiotensin (At)II 10(-9)-10(-5) M caused concentration-dependent contractions. The contractile effect was immediate, and had an amplitude which at the highest concentration used, 10(-5) M, reached 103 +/- 16% of the mean contraction produced by K+ 124 mM (27.6 +/- 1.4 mN). The AtII effect was completely blocked by saralasin 10(-6) M, but was not affected by pre-treatment of the preparations with captopril or enalaprilate. There was a marked tachyphylaxis to the actions of the peptide. AtI (10(-8)-10(-5) M) also caused contractions which were rapidly developing, and subject to a marked tachyphylaxis. At a concentration of 10(-5) M, the mean amplitude was 66 +/- 9% of the K(+)-induced contraction. The contractions were blocked by saralasin 10(-6) M, but not by captopril or enalaprilate 10(-5) M. In contrast, contractions produced by AtI in rabbit mesenteric arteries were practically abolished by the angiotensin converting enzyme (ACE) inhibitors. The contractions induced by both AtI and AtII were practically abolished after pre-treatment in a nominally calcium-free Krebs solution. However, blockade of L-type calcium channels by nifedipine 10(-6) M reduced the responses to both AtI 10(-6) M (by 38 +/- 4%) and AtII 10(-6) M (by 39 +/- 7%), but never abolished the contractions. Bradykinin (Bk; 3 x 10(-8)-10(-5) M) had a contractile effect in detrusor preparations which varied widely between strips. At a concentration of 3 x 10(-6) M, a maximum was reached amounting to 30 +/- 10% of the K(+)-induced contraction.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Contractions induced by angiotensin I, angiotensin II and bradykinin in isolated smooth muscle from the human detrusor. 151 83

The relationship between sulfhydryls and cGMP has been observed in several biological processes. Captopril is a sulfhydryl-containing angiotensin converting enzyme (ACE) inhibitor, that decreases PGI2 production in cultured human vascular endothelial cells. Enalapril does not appear to have this property. The role of cyclic GMP (cGMP) and sulfhydryls in the regulatory mechanisms in captopril-induced PGI2 production and Ca++ kinetics was investigated. Bradykinin and Ca ionophore A23187 enhanced PGI2 production, and increased the cytosolic free Ca++ concentration ([Ca++]i). It was observed that 8-bromo cGMP increased intracellular cGMP concentration ([Ca++]i), and decreased PGI2 production without changing [Ca++]i. Sulfhydryl containing compounds such as captopril, N-acetylcysteine and glutathione decreased PGI2 production via increased [cGMP]i. Enalapril, an ACE inhibitor without sulfhydryls, has no effect on PGI2 production, [Ca++]i and [cGMP]i. These results suggested that the presence of sulfhydryl groups is an important factor in the ability of vasoactive substances to induce PGI2 production.
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PMID:Effect of cyclic GMP and sulfhydryl on prostacyclin production by human vascular endothelial cells. 165 36

In our studies, we investigated the vasodepressor effects of bradykinin in vivo in normotensive and hypertensive subjects. Bradykinin was injected intravenously and intra-arterially (40-6,050 pM/kg) and was infused intra-arterially (40-6,050 pM/kg/min). The investigations were performed in 21 normotensive and 15 hypertensive patients. Bradykinin injections were performed after the following pharmacological interventions: salt restriction (10 mmol of Na/day), salt loading (300 mmol of Na/day), captopril (50 mg), ramipril (5 mg), lisinopril (20 mg), ketotifen (2 X 1 mg), indomethacin (2 X 50 mg), and propranolol (80 mg). The results show that bradykinin lowers blood pressure in a dose-related manner by marked reduction in peripheral vascular resistance. The blood pressure reduction was strongly correlated with the increase in kinin concentration. This effect of bradykinin appears to be independent of changes in sodium metabolism, beta-adrenoceptors, histamine-1 receptors, and prostaglandins. ACE inhibitors protentiate the blood pressure-lowering effect of bradykinin approximately 20- to 50-fold. In the case of intra-arterial injection of bradykinin, only 2-5% of the intravenously used dose of bradykinin are needed to produce an identical fall in blood pressure. From these experiments, a pulmonary clearance rate of bradykinin of over 95% can be calculated. In the pulmonary arteries, bradykinin has no effect on vascular resistance. In patients suffering from primary or renovascular hypertension, the blood pressure response to bradykinin was enhanced. The bradykinin potentiating effect of the ACE inhibitors was not altered in the hypertensives. In patients suffering from borderline hypertension or primary hyperaldosteronism, bradykinin caused the same blood pressure lowering effect as in the normotensives.
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PMID:Hemodynamic effects of bradykinin on systemic and pulmonary circulation in healthy and hypertensive humans. 169 61

Inhibitors of the angiotensin-converting enzyme (ACE = kininase II) by definition have a dual action: prevention of angiotensin II generation and inhibition of kinin degradation. Although the first mechanism is generally accepted, it may not by itself be sufficient to explain the acute blood pressure-lowering action of these compounds. Studies in experimental and clinical hypertension, including the use of selective angiotensin II and bradykinin receptor antagonists, suggest additional vasodilator, non-renin-dependent mechanisms in their action on blood flow and blood pressure. Inhibition of kinin degradation by ACE inhibitors will amplify kinin-mediated reactions on local vessel tone, in particular, if kinin generation is stimulated or this situation is experimentally mimicked by addition of exogenous bradykinin. The acute blood pressure-lowering action of ACE inhibitors is inhibited by indomethacin-type cyclooxygenase inhibitors, suggesting a contribution of bradykinin-induced release of vasodilator prostaglandins to their action. Bradykinin stimulates the phospholipase-dependent release of arachidonic acid from membrane phospholipids, allowing for subsequent generation of its metabolites, the eicosanoids. This stimulation is receptor-mediated and involves one or more types of B2 receptors, coupled via G-proteins to intracellular messenger systems that control cytosolic calcium levels. Bradykinin-induced changes in vessel tone are transient, caused by a rapidly developing tachyphylaxis at the receptor level. The potent vasodilator action of systemic bradykinin administration is not consistently reflected in studies performed on isolated blood vessels. This is probably due to the indirect nature of kinin-mediated vasomotor responses, i.e., the release of vasoactive mediators, most notably the eicosanoids and endothelium-derived relaxing factor (EDRF).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Converting enzyme inhibitors and the interaction between kinins and eicosanoids. 169 63

Bradykinin is a potent vasodilator peptide; however, its half-life in vivo is very short because of various plasma and tissue peptidases that hydrolyze bradykinin to inactive fragments. We studied the role of kininase II (angiotensin converting enzyme) and neutral endopeptidase 24.11 (enkephalinase) in the catabolism of bradykinin in vascular tissue by determining the effect of inhibitors of kininase II (captopril) and of endopeptidase 24.11 (phosphoramidon) on the action of bradykinin on rat isolated mesenteric arteries. Because bradykinin may induce prostaglandin formation and release, we also studied the effect of a cyclooxygenase inhibitor, indomethacin, on the action of bradykinin. The mesenteric bed was isolated from rats (250-300 g) with rats under either anesthesia and was perfused with Krebs' solution (4 ml/min) containing phenylephrine (0.5-1.0 microgram/ml) to produce a mean perfusion pressure of 120-130 mm Hg. Bradykinin (2.5-40.0 ng), injected as a bolus, produced a dose-dependent decrease in perfusion pressure. In the presence of indomethacin (1.0 microgram/ml), the amplitude of the vasodilator responses to bradykinin was not significantly affected, although the duration of the responses was increased approximately two to four times. In the presence of captopril (1.0 microgram/ml), bradykinin elicited either a vasodilator or a biphasic effect. The vasodilator effect was greatly potentiated by captopril, whereas the duration of the response was unchanged when compared with control experiments. When present, the pressor responses were also dose related. In the presence of indomethacin plus captopril, bradykinin produced only a fall in perfusion pressure that lasted five to six times longer than without any treatment.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of bradykinin on isolated mesenteric arteries of the rat. 173 87

1. Bradykinin (cumulative concentrations of 0.007-0.09 micrograms ml-1) produced a dose-related, but statistically insignificant depression of the isometric contraction of the isolated, spontaneously beating atria of the guinea-pig. The same concentrations of bradykinin did not change the atrial rate, but a tendency to a slight decrease was observed. 2. Enalapril (4.06 or 13.54 mumol l-1), produced a dose-related potentiation of the effect of the highest concentration of bradykinin on the isometric contraction. 3. Captopril (equimolar concentrations) also potentiated the effect of the highest concentration of bradykinin on the isometric contraction. This effect of captopril was not dose-related. 4. Both enalapril and captopril did not change the effect of bradykinin on the heart rate. 5. Bradykinin induced dose-related hypotensive responses in anaesthetized cats (0.03-1.0 microgram/kg b.w., i.v.) with a tendency towards bradycardia. 6. Enalapril (0.3 and 1.0 mg/kg b.w., i.v.) significantly potentiated bradykinin-induced hypotension and bradycardia. However, the potentiating effect of enalapril was not dose-dependent. 7. Captopril (0.1, 0.3 and 1.0 mg/kg b.w., i.v.) significantly potentiated bradykinin-induced hypotension and bradycardia. Also, the potentiating effect of captopril was not dose-dependent. 8. The failure of ACE inhibitors to potentiate the cardiodepressant and hypotensive effects of bradykinin in a dose-dependent manner is explained with some other mechanism(s) independent of ACE inhibition.
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PMID:The potentiation of cardiodepressant and hypotensive effects of bradykinin by enalapril and captopril both in vitro and in vivo. 181 Aug 15

Local inhibition of angiotensin-converting enzyme (ACE, kininase II) produces both-attenuation of angiotensin II generation and of bradykinin degradation. To delineate the participation of bradykinin in the cardioprotective actions of ACE inhibitors, experiments were performed in rats and dogs with cardiac ischemia-reperfusion injuries. In isolated perfused working rat hearts with regional myocardial ischemia, bradykinin in concentrations as low as 1 x 10(-9) M increases coronary flow and reduces the incidence and duration of reperfusion ventricular fibrillation. In addition, enzyme activities of lactate dehydrogenase and creatine kinase as well as lactate output were decreased in the venous effluent of bradykinin-perfused hearts, which also showed improved cardiodynamic and metabolic parameters. Even concentrations of bradykinin lower than 1 x 10(-10) M, which were without influence on coronary flow, exerted comparable beneficial metabolic effects connected with reduced incidence and duration of ventricular fibrillation. Combined perfusions with threshold concentrations of bradykinin (1 x 10(-12) M) and the ACE inhibitor ramiprilat (2,58 x 10(-9) M), which were ineffective given alone, resulted in a marked cardioprotective effect. Perfusion with angiotensin II (1 x 10(-9) M) aggravated reperfusion arrhythmias and worsened myocardial metabolism. Bradykinin perfusion prevented this deterioration in a concentration-dependent manner. The bradykinin antagonist D-Arg-[Hyp2, Thi5,8, D-Phe7]-bradykinin (1 x 10(-5)) completely abolished the cardioprotective effects of bradykinin or the ACE inhibitor. However, higher concentrations of bradykinin (1 x 10(-7) M) or ramiprilat (2,58 x 10(-5) M) reversed these properties of the bradykinin antagonist.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[ACE inhibition: mechanisms of "cardioprotection" in acute myocardial ischemia]. 186 30

We investigated the effect of inhibition of carboxypeptidase, neutral endopeptidase, or angiotensin converting enzyme on airway reactivity to intravenous bradykinin in guinea pigs. Bradykinin reactivity in intact, unanesthetized, spontaneously breathing animals was determined by measuring specific airway resistance in response to increasing doses of intravenous bradykinin or acetylcholine. We found that phosphoramidon and/or captopril (specific antagonists of neutral endopeptidase and angiotensin converting enzyme, respectively) increased airway reactivity to bradykinin, but the combination had no effect on muscarinic reactivity. Although 2-mercaptomethyl-3-guanidinoethylthiopropanoic acid (MGTA, a carboxypeptidase inhibitor) alone did not alter bradykinin reactivity, MGTA in the presence of both phosphoramidon and captopril significantly potentiated bradykinin-induced airway reactivity. In comparison, this did not affect reactivity to acetylcholine. Having found that carboxypeptidase inhibition could augment kinin-induced airway reactivity, we subsequently assayed for and identified carboxypeptidase M activity in guinea pig lung. We found considerable carboxypeptidase M activity in guinea pig lung subcellular fractions, the 100,000 x g membrane pellet having the highest specific activity. Our data indicate that airway reactivity to intravenous bradykinin is modulated by the activity of endogenous neutral endopeptidase, angiotensin converting enzyme, and carboxypeptidase, all of which are present in lung cell membranes. This study also suggests that the influence of carboxypeptidase per se may be substantially enhanced if endogenous pulmonary neutral endopeptidase and angiotensin converting enzyme activities are reduced.
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PMID:Lung peptidases, including carboxypeptidase, modulate airway reactivity to intravenous bradykinin. 192 64


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