EC:3.4.15.1 - FACTA Search

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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)

We have investigated the effective role of angiotensin II on the renal function and urinary excretion of some prostanoids in healthy women submitted to different conditions of potassium balance. To this aim we have evaluated the effects of an acute inhibition of angiotensin converting enzyme by enalapril (E). The renal function was explored by clearance (cl.) method during induced hypotonic polyuria (oral water load followed by 5% dextrose solution infusion). During 60 min cl. period the urinary PGE2, 6-keto-PGF1 alpha and TxB2 were determined by RIA method. Each subject received paired studies, in absence and presence of E (10 mg administered per os 1 hour before the water load). Basal values of plasma renin activity (PRA) and urinary aldosterone (excreted during the 24 hours before the water load) were also determined by RIA method. This study protocol was applied in normal potassium balance (n = 6) and induced moderate potassium depletion (n = 6). This paper concerns the group in normal potassium balance in both absence (N3) and presence of E (N3.E). All subjects were submitted to normal dietary intake of sodium (150 mmol/d) and potassium (50 mmol/d). The basal values of PRA, urinary aldosterone and plasma electrolytes were in the normal range. The only significant effect produced by E was a reduction in mean arterial pressure, without significant changes in creatinine cl., urinary hydro-electrolyte excretions as well as urinary excretions of prostanoids.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Renal effects of the acute inhibition of angiotensin-converting enzyme. I. 1) Studies during normal sodium and potassium balance]. 129 5

We have investigated the relative roles of angiotensin II on the renal function and urinary excretion of some prostanoids in healthy women submitted to different conditions of potassium balance. To this aim we have evaluated the effects of an acute inhibition of angiotensin converting enzyme by enalapril (E). The renal function was explored by clearance (cl.) method during induced hypotonic polyuria (oral water load followed by 5% dextrose solution infusion). During 60 min cl. period the urinary PGE2, 6-keto-PGF1 alpha and TxB2 were determined by RIA method. Each subject received paired studies, in absence and presence of E (10 mg administered per os 1 hour before the water load). Basal values of plasma renin activity (PRA) and urinary aldosterone (excreted during the 24 hours before the water load) were also determined by RIA method. This study protocol was applied in normal potassium balance (n = 6) and induced moderate potassium depletion (n = 6). This paper concerns the group in potassium depletion in both absence (D4) and presence of E (D4.E). Potassium depletion was induced by adaptation to a normal sodium (150 mmol/d) and low potassium (< or = 10 mmol/d) dietary intake combined to natriuretic treatment. The water and NaCl net losses were restored by 0.9% NaCl solution infusion. The cumulative potassium deficit achieved at the end of the depletive treatment was 214 +/- 54 mmol. This treatment induced significant decrease in basal plasma potassium concentration and increase in PRA without affecting urinary aldosterone and plasma sodium concentration.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Renal effects of the acute inhibition of angiotensin-converting enzyme. I. 2) Studies during moderate potassium depletion]. 129 6

We have investigated the relative roles of some renal prostanoids and angiotensin II in the hypokalemic renal dysfunction. To this aim we have evaluated the renal function in healthy women in induced potassium depletion of moderate degree before and after acute inhibition of cyclooxygenase (indomethacin, I) or angiotensin converting enzyme (enalapril, E). The renal function was explored by clearance (cl.) method during hypotonic polyuria induced by oral water load followed by 5% dextrose solution infusion; the urinary PGE2, 6-keto-PGF1 alpha and TxB2 were determined by RIA method. Potassium depletion was induced in 12 subjects by adaptation to low potassium (< or = 10 mmol/d) and normal sodium (150 mmol/d) dietary intake combined to natriuretic treatment. The water and NaCl net losses were restored by 0.9% NaCl solution infusion. In 6 subjects paired functional studies were performed in absence (D3) and presence of I (D3.I), 100 mg administered i.m. immediately before the water load. In other 6 subjects, paired studies were performed in absence (D4) and presence of E (D4.E), 10 mg administered per os 1 hour before the water load. No significant difference between D3 and D4 was observed as regards the potassium cumulative deficit as well as the basal values of plasma potassium concentration and plasma renin activity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Renal effects of the acute inhibition of angiotensin-converting enzyme. I. 3) Relative roles of angiotensin II and prostanoids in early hypokalemic dysfunction]. 129 7

The balance between prostaglandin (PG)I2, a potent vasodilator and inhibitor of platelet aggregation mainly produced by endothelial cells, and thromboxane (TX)A2, a vasoconstrictor and inducer of platelet aggregation and adhesion synthesized predominantly by platelets, seems to be relevant for the regulation of vessel tone and platelet aggregation. PGE2 has vasodilating properties, too. Thus, substances affecting the biosynthesis of PG and TX may have prophylactic and therapeutic, but also detrimental effects with regard to hypertension and atherosclerosis. A mechanism of action which is related to the PG system is discussed for a number of antihypertensive agents, e.g. propranolol, angiotensin converting enzyme inhibitors, furosemide and cicletanine. The vasoprotective effect of inhibition of platelet cyclooxygenase by acetylsalicylic acid is well known. Calcium antagonists, dipyridamole, estradiol, aprotinin and interferon have also been reported to possibly exert beneficial effects on PG/TX levels, while cyclosporin A and streptokinase have shown undesirable interactions with the PG system.
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PMID:[Vasoactive drugs with an effect on the prostaglandin system]. 141 11

Pretreatment with captopril, a kininase II inhibitor, at 10 mg/kg i.p. or s.c., significantly increased the writhing response induced by a minimum effective dose (0.75 mg/kg i.p.) of phenylbenzoquinone (PBQ), by 91-148%. 1,10-Phenanthroline, a carboxypeptidase B inhibitor (2 mg/kg i.p.), in combination with captopril enhanced the algesic effect of PBQ by 309-360%. Captopril also doubled the number of writhes induced by a minimum effective dose of BK (5 micrograms/kg i.p.) in PGE2-pretreated mice. The writhing responses induced by higher doses of PBQ or BK were not affected by these inhibitors. The hyperalgesic effect of BK (1 micrograms) injected into the hindpaw of rats was significantly increased and prolonged by coinjection of captopril (30 micrograms) and 1,10-phenanthroline (30 micrograms) and was prevented by carboxypeptidase B (1 mg). These data indicate that BK plays a role in pain in these models, a role which appears of greatest relevance at threshold algesic stimulation.
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PMID:Evidence for a role of bradykinin in experimental pain models. 179 37

Prostaglandins (PG) play an important role in the regulation of the renal blood flow and glomerular filtration rate. This study was designed to examine PG synthesis in the presence and absence of the ACE inhibitor captopril, PG binding to specific receptors and the ability of PG to stimulate cAMP accumulation in isolated glomeruli. Glomeruli were isolated from rat kidneys by a passive mechanical sieving technique. PG synthesis was determined by RTLC and RIA. The main eicosanoids synthesized by glomeruli were PGF2 alpha, thromboxane (TX) A2 (measured as TXB2), PGI2 (measured as 6-keto-PGF1 alpha) and PGE2. Binding experiments were performed with PGE1, PGE2 and the PGI2 analogue iloprost. Scatchard analysis revealed that the specific binding was highest for PGE1, followed by iloprost and PGE2. Adenylate cyclase was preferentially stimulated by PGE1 and PGE2, and to a lesser extent by PGI2, whereas PGF2 alpha had almost no effect. Captopril reduced mainly TXB2 concentrations. Glomerular TXB2 reduction, therefore, seems to be an additional hypotensive effect of captopril medication.
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PMID:[Glomerular prostaglandins: synthesis, mechanism of action and interaction with ACE inhibitors]. 185 Sep 40

Benazepril (CGS 14824A HCl) is a new prodrug type angiotensin converting enzyme (ACE) inhibitor. The active form is considered to be benazeprilat, a diacid hydrolyzed compound. Benazepril and benazeprilat inhibited the contraction induced by exposure with angiotensin I, not angiotensin II, in the isolated rabbit aorta. The ACE inhibiting activity of benazeprilat was 1000 times more potent than that of benazepril in this experiment. Benazepril as well as benazeprilat and captopril exerted little influence on norepinephrine, serotonin and high K(+)-induced contraction or bradykinin-induced relaxation in isolated blood vessel preparations, thus angiotensin II synthesis inhibition seemed to be the main cause for its vasodilation. Benazepril, unlike benazeprilat or captopril showed considerable influence on prostaglandin (PG)-induced responses at higher concentrations. The vasocontraction induced by PGF2 alpha was competitively antagonized at 10(-5)-10(-4) mol/l, while vascular responses induced by PGE1, PGE2 or PGI2 was inhibited at 3 x 10(-4) mol/l of benazepril. Although these influences on PGs might not contribute much to its vasodilatory mechanism, the action seemed interesting in relation to cough induction, a known side effect of ACE inhibitors in the market. Benazepril has two asymmetric carbon atoms, thus four optical isomers are possible, SS (benazepril), SR (CGP 14'829A), RS (CGP 42'454A), RR (CGP 42'456A). The SS configuration was the most potent for antagonizing angiotensin I-induced vasocontraction, which seemed to be the best fitted for the ACE molecule.
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PMID:Antihypertensive mechanism of action of the novel angiotensin converting enzyme inhibitor benazepril. Effect on isolated vascular preparations. 208 Sep 46

Elevation of glomerular filtration rate (GFR) is a feature of diabetes mellitus in humans and in animal models. Angiotensin II has been implicated as a mediator of GFR in diabetes. The acute effect of inhibition of angiotensin converting enzyme with captopril on renal haemodynamic and endocrine parameters was therefore studied in 14 normotensive male Type 1 diabetic patients, and the responses compared with those in five normal male control subjects. Following captopril 12.5 mg orally the diabetic patients exhibited an acute fall in GFR from 122 +/- 3.8 to 113 +/- 4.5 ml min-1 1.73-m-2 (p less than 0.02) and a rise in renal plasma flow (RPF) from 670 +/- 57 to 797 +/- 46 ml min-1 1.73-m-2 (p less than 0.01) which resulted in a fall in filtration. This did not occur in normal control subjects. Natriuresis occurred only in normal control subjects. There was no change in urinary excretion of PGE2 or kallikrein in either group but excretion of 6-keto-PGF1 alpha fell in the diabetic patients. There was a significant correlation between glycosylated haemoglobin and baseline RPF (rs = -0.79, p less than 0.001) and filtration fraction (rs = 0.83, p less than 0.001) that persisted when the change in these variables following captopril was analysed. Our results are compatible with the response to ACE inhibition in diabetic patients being secondary to inhibition of angiotensin II and suggest that this response may be related to blood glucose control.
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PMID:Blood glucose control determines the renal haemodynamic response to angiotensin converting enzyme inhibition in type 1 diabetes. 213 98

The effects of a new angiotensin converting enzyme inhibitor, delapril hydrochloride, (delapril) on renal function, and the renin-angiotensin-aldosterone and kallikrein-kinin prostaglandin systems were studied in 10 hypertensive patients. After 4 to 12 months (7.6 +/- 0.9 [SE]) of treatment with 15-60 mg/day (36 +/- 6.8) of delapril (b.i.d.), mean arterial pressure was decreased from 126 +/- 3.0 to 110 +/- 4.4 mmHg (p less than 0.01). Although renal blood flow (RBF), assessed by PAH clearance and hematocrit, was increased from 437 +/- 51 to 490 +/- 49 ml/min (p less than 0.05) and renal vascular resistance was decreased (p less than 0.05), glomerular filtration rate, measured by endogenous creatinine clearance, did not change significantly. Thus, filtration fraction was reduced (p less than 0.01). Plasma renin activity was increased from 1.5 +/- 0.3 to 4.4 +/- 1.1 ng/ml/hr (p less than 0.01). Plasma aldosterone concentration tended to decrease (p less than 0.1), and urinary aldosterone excretion showed on significant change. Although urinary kallikrein and prostaglandin E2 excretions were increased (p less than 0.05), urinary thromboxane B2 excretions was reduced (p less than 0.05). In addition, the changes in RBF were significantly correlated with those in urinary PGE2 excretion (r = 0.63, p less than 0.05). These results suggest that the antihypertensive effect of delapril is multifactorial and that the improvement of RBF seen during delapril administration in the present study may be partly due to the suppression of the renin-angiotensin-aldosterone system and the activation of kallikrein-kinin-prostaglandin system.
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PMID:[The long-term effects of a new converting enzyme inhibitor, delapril hydrochloride, on renal function, renin-angiotensin-aldosterone system and kallikrein-kinin prostaglandin system in hypertensive patients]. 227 96

Changes in blood pressure, plasma renin activity, urine volume, urinary PGE2, 6-keto-PGF1 alpha and kinins, were studied after the administration of the angiotensin converting enzyme inhibitor ramipril (100 mu/kg/day), for one week in concomitantly indomethacin (1 mg/kg/day) treated and untreated rats. Measurements were made basally, before Ramipril administration and on days 1 and 7 during the treatment. Ramipril given alone induced a decrease in urinary PGE2 (NS) and 6-keto-PGF1 alpha (p less than 0.05) on day 1, together with an increase in urinary kinins on day 7 (p less than 0.01) and in urine volume on days 1 and 7 (p less than 0.05). Increased urinary PGE2 (NS) and 6-keto-PGF1 alpha (p less than 0.05) were observed in indomethacin pretreated rats after ramipril administration. No modifications in BP levels were observed either with indomethacin or with ramipril given alone or with ramipril plus indomethacin. Ramipril increased plasma renin activity levels both in indomethacin treated and untreated rats on days 1 (p less than 0.01) and 7 (p less than 0.05). The diuretic effect of ramipril and the stimulation of kinins were blunted when concomitant indomethacin was administered. Although a stimulatory effect of ramipril on urinary PGS was only observed during indomethacin administration, the present results would suggest that a non-inhibited PGS synthesis would be required for the renal actions of Ramipril.
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PMID:Role of renal prostaglandins in the action of ramipril (HOE-498) in normotensive rats. 252 61

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