Recently, we found that amlodipine can release nitric oxide (NO) from canine coronary microvessels, which raises the question of whether amlodipine can also promote coronary NO production in failing human hearts. The ...
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Recently, we found that amlodipine can release nitric oxide (NO) from canine coronary microvessels, which raises the question of whether amlodipine can also promote coronary NO production in failing human hearts. The goal of this study was to define the effect of amlodipine on NO production in failing human hearts and to determine the role of kinins in the control of NO production induced by amlodipine. Six explanted human hearts with end-stage heart failure were obtained immediately at transplant surgery. Coronary microvessels were isolated as previously described, and nitrite, the stable metabolite of NO in aqueous solution, was measured using the Griess Reaction. Amlodipine (10(-10) to 10(-5) mol/L) significantly increased nitrite production in coronary microvessels in a dose-dependent manner. The increase in nitrite in response to the-highest dose of amlodipine (79%) was similar in magnitude to either that of the angiotensin-converting enzyme inhibitor ramiprilat (74%) or the neutral endopeptidase inhibitors phosphoramidon (61%) and thiorphan (72%). Interestingly, the increase in nitrite production induced by amlodipine was entirely abolished by N(omega)nitro-L-arginine methyl ester and also HOE-140 (a bradykinin-2 antagonist) and dichloroisocoumarin (a serine protease inhibitor that blocks kallikrein activity). These results indicate that amlodipine can promote coronary NO production in failing human hearts and that this effect is dependent on a kinin-mediated mechanism. (C) 1999 by Excerpta Medica, Inc.
Combined inhibition of neutral endopeptidase 24.11 (NEP) and angiotensin converting enzyme (ACE) is a candidate therapy for hypertension and cardiac failure. Given that NEP and ACE metabolize angiotensin (Ang) and bra...
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Combined inhibition of neutral endopeptidase 24.11 (NEP) and angiotensin converting enzyme (ACE) is a candidate therapy for hypertension and cardiac failure. Given that NEP and ACE metabolize angiotensin (Ang) and bradykinin (BK) peptides, we investigated the effects of NEP inhibition and combined NEP and ACE inhibition on Ang and BK levels in rats with myocardial infarction. We administered the NEP inhibitor ecadotril (0, 0.1, 1, 10, and 100 mg/kg/day), either alone or together with the ACE inhibitor perindopril (0.2 mg/kg/day) by 12-hourly gavage from day 2 to 28 after infarction. Ecadotril increased urine cyclic GMP and BK-(1-9) excretion. Perindopril potentiated the effect of ecadotril on urine cyclic GMP excretion. Neither perindopril nor ecadotril reduced cardiac hypertrophy when administered separately, whereas the combination of perindopril and 10 or 100 mg/kg/day ecadotril reduced heart weight/body weight ratio by 10%. Administration of ecadotril to perindopril-treated rats decreased plasma Ang-(1-7) levels, increased cardiac BK(1-9) levels, and increased Ang II levels in plasma, kidney, aorta, and lung. These data demonstrate interactions between the effects of NEP and ACE inhibition on remodeling of the infarcted heart and on Ang and BK peptide levels. Whereas increased cardiac BK-(1-9) levels may contribute to the reduction of cardiac hypertrophy, the reduction in plasma Ang-(1-7) levels and increase in Ang II levels in plasma and tissues may compromise the therapeutic effects of combined NEP/ACE inhibition.
Neutral endopeptidase 24.11 (NEP) inhibitors are known to have vascular, diuretic, and natriuretic effects that may be helpful in the treatment of congestive heart failure (CHF). Most NEP inhibitors may act principall...
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Neutral endopeptidase 24.11 (NEP) inhibitors are known to have vascular, diuretic, and natriuretic effects that may be helpful in the treatment of congestive heart failure (CHF). Most NEP inhibitors may act principally through intrarenal mechanisms, which are not completely understood. The purpose of this study was to determine the principal renal effects of the NEP inhibitor ecadotril in dogs with progressive CHF induced by rapid ventricular pacing. Renal function was measured before, during, and after acute i.v. infusion of normal saline in a total of six dogs during normal cardiac function, early left ventricular dysfunction, and overt CHF. During overt CHF, each dog was treated with either ecadotril or placebo orally for 1 week. Parameters measured included glomerular filtration rate, renal blood flow, urine output, sodium clearance, sodium fractional excretion, and proximal and distal sodium reabsorption. Ecadotril treatment resulted in increased urine output, sodium clearance, and renal sodium excretion relative to placebo-treated controls. The principal intrarenal effect of ecadotril was decreased distal renal tubular sodium reabsorption. Both glomerular filtration rate and renal blood flow declined during overt CHF and were unaffected by ecadotril treatment. The results of this study are consistent with the principal action of ecadotril occurring by way of intrarenal events as opposed to changes in renal hemodynamics. The principal effect of ecadotril on distal tubular sodium reabsorption suggests that inhibition of NEP activity in the proximal renal tubules may allow increased binding of filtered atrial natriuretic peptide to natriuretic peptide receptor sites in the distal renal tubules and collecting ducts.
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