Plasma Angiotensin II and the Antihypertensive Action of Angiotensin-Converting Enzyme Inhibition

The measurement of immunoreactive "angiotensin II” in plasma cannot provide an accurate reflection of the efficacy of angiotensin-converting enzyme (ACE) inhibition because different angiotensin fragments interfere in all radioimmunoassays available so far. More complex methods are necessary in order to measure specifically angiotensin-(1-8)octapeptide. With such methodology it can be shown that no tolerance develops to the angiotensin II-reducing effect of ACE inhibitors after prolonged administration. Marked reduction of angiotensin II levels can be shown even in patients with primary aldosteronism. At peak blockade, the level of plasma angiotensin II is still related to circulating active renin and angiotensin I. Accordingly, because ACE inhibitors raise circulating angiotensin I in a dose-dependent fashion, this should be taken into account when dosing ACE inhibitors. The hypothesis that tissue renin-angiotensin systems play an important independent role in determining vasomotor tone is very interesting. However, any discussion on whether tissue or plasma renin determines the pharmacological effect of ACE inhibitors should be based on the simultaneous measurement of true angiotensin II in tissue and plasma under steady-state conditions. Am J Hypertens 1989;2:286-29

Dose-Response Relationships Following Oral Administration of DuP 753 to Normal Humans

We assessed the inhibitory effect of DuP 753, an orally active angiotensin II receptor antagonist, on the pressor action of exogenous angiotensin I and II in healthy volunteers. In a single dose study, doses of 2.5, 5, 10, 20, and 40 mg of DuP 753 or placebo were tested serially at one week intervals. In the multiple dose study, the administration of placebo or DuP 753 (5, 10, 20, or 40 mg, per os once daily) for eight consecutive days was evaluated. The blood pressure response to angiotensin I and II was inhibited in a dose-dependent fashion with a blocking effect still present 24 h post drug. DuP 753 also induced a dose-dependent compensatory rise in plasma renin. This new compound was well tolerated by these normal volunteers. Thus, DuP 753 appears to be a well tolerated, orally active, potent and long-lasting antagonist of angiotensin II in humans. Am J Hypertens 1991;4:350S-354

Strategies for the management of hypertension in aircrew

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Monitoring introgression in European wildcats in the Swiss Jura

Introgression is an important evolutionary force, which can lead to adaptation and speciation on one hand, but on the other hand also to genetic extinction. It is in the latter sense that introgression is a major conservation concern, especially when domestic species reproduce with their rare wild relatives. Hence, monitoring introgression in natural populations subject to hybridization is crucial to elucidate the threat represented by introgression. Here, we monitored introgression between wildcats (Felis silvestris silvestris) and domestic cats (Felis silvestris catus) in a wildcat population in the Swiss Jura Mountains using systematically and non-invasively collected hair samples. We found 21% admixed individuals based on 68 diagnostic nuclear SNP-markers, corresponding to a migration rate from domestic cats to wildcats of 0.02 migrants per generation. In contrast, gene flow from wildcats into domestic cats was negligible. Haphazard sampling of the same wildcat population, mostly via road kills, led to similar results. Hybridization occurred between wildcat male and domestic cat female and vice versa and, based on the occurrence of backcrosses, both female and male F1-hybrids seem viable and fertile. The observed hybridization pattern may indicate an expanding wildcat population with introgression as a byproduct of this expansion but alternative explanations cannot be excluded with the current data

P-624: Changes in plasma renin match the antihypertensive effects of aliskiren in patients with hypertension: Placebo/irbesartan-controlled trial with the orally active renin inhibitor aliskiren

For several decades, the lack of oral availability and poor antihypertensive effects of renin inhibitors (RI), despite seemingly powerful inhibition of conventionally measured plasma renin activity (PRA), have discredited RI as cardiovascular drugs. Aliskiren is a novel orally effective RI with antihypertensive potency comparable to losartan or irbesartan. The present study investigated the effects of aliskiren and irbesartan on PRA, measured by the reliable antibody trapping technique, as well as on plasma active renin concentration (ARC) and sitting systolic blood pressure (SBP). In 569 patients with mild to moderate hypertension (baseline sphygmomanometric sitting blood pressure 152±12/99±4 mmHg, mean±SD), PRA and ARC, as well as SBP were measured before and after 8 weeks of treatment with once daily oral doses of aliskiren (150, 300 or 600mg), irbesartan 150mg or placebo. The effects of study treatments on PRA, ARC and SBP are summarized in the Table. Treatment N PRA (ng/mL/h) ARC (pg/mL) SBP (mmHg) Baseline Week 8 Baseline Week 8 Baseline Week 8 Placebo 111 0.72 0.64 6.2 5.6 152 ± 12 147 ± 18 Aliskiren 150mg 112 0.66 0.20 6.0 15.3 151 ± 11 140 ± 14 Aliskiren 300mg 115 0.59 0.17 6.1 21.0 152 ± 10 137 ± 14 Aliskiren 600mg 113 0.64 0.16 5.8 34.9 153 ± 12 137 ± 16 Irbesartan 150mg 118 0.64 1.33 5.5 11.3 153 ± 11 140 ± 16 PRA and ARC values are geometric means; SBP values are mean ± SD Aliskiren reduced PRA by 69%, 71% and 75% at 150, 300 and 600mg respectively, while irbesartan doubled PRA. Most of the antihypertensive effect of aliskiren was obtained with the lowest dose, but higher doses slightly further decreased SBP. Aliskiren 150mg and irbesartan 150mg provided similar increases in ARC and hence comparably blocked the renin-angiotensin system (RAS), and the achieved SBP was also the same. Aliskiren 300mg and 600mg caused greater increases in ARC compared with irbesartan 150mg (p<0.05), and further decreases in SBP. The dose-dependent increases in ARC observed with aliskiren document increasing blockade of the RAS. In conclusion, aliskiren provides a parallel reduction in PRA and SBP, a dose-dependent blockade of the RAS and is at least as effective as irbesartan at comparable dosages (150mg

Dose-response relationships following oral administration of DuP 753 to normal humans

We assessed the inhibitory effect of DuP 753, an orally active angiotensin II receptor antagonist, on the pressor action of exogenous angiotensin I and II in healthy volunteers. In a single dose study, doses of 2.5, 5, 10, 20, and 40 mg of DuP 753 or placebo were tested serially at one week intervals. In the multiple dose study, the administration of placebo or DuP 735 (5, 10, 20, or 40 mg, per os once daily) for eight consecutive days was evaluated. The blood pressure response to angiotensin I and II was inhibited in a dose-dependent fashion with a blocking effect still present 24 h post drug. DuP 753 also induced a dose-dependent compensatory rise in plasma renin. This new compound was well tolerated by these normal volunteers. Thus, DuP 753 appears to be a well tolerated, orally active, potent and long-lasting antagonist of angiotensin II in humans

Use of plasma Renin activity to monitor mineralocorticoid treatment in dogs with primary hypoadrenocorticism: desoxycorticosterone versus fludrocortisone.

BACKGROUND: Measurement of plasma renin activity (PRA) is the gold standard for monitoring mineralocorticoid treatment in humans with primary hypoadrenocorticism (PH). OBJECTIVES: To compare PRA in dogs with newly diagnosed PH, dogs with diseases mimicking PH, and healthy dogs, and evaluate measurement of PRA to monitor therapeutic effects in dogs with PH treated with different mineralocorticoids. ANIMALS: Eleven dogs with newly diagnosed PH (group 1), 10 dogs with diseases mimicking PH (group 2), 21 healthy dogs (group 3), 17 dogs with treated PH (group 4). METHODS: In group 1, PRA was measured before treatment and at different times after initiating treatment. In groups 2 and 3, PRA was measured at initial presentation only. In group 4, no baseline PRA was obtained but PRA was measured once or every 1-6 months during treatment. Mineralocorticoid treatment consisted of fludrocortisone acetate (FC) or desoxycorticosterone pivalate (DOCP). RESULTS: Plasma renin activity before treatment was increased in dogs with PH compared to normal dogs and dogs with diseases mimicking PH with median activity of 27, 0.8, and 1.0 ng/mL/h, respectively. In dogs with PH, PRA decreased and normalized with mineralocorticoid treatment using DOCP but not with FC. In dogs treated with DOCP, PRA was lower than in dogs treated with FC. Plasma sodium concentrations were higher and potassium concentrations were lower with DOCP treatment compared to FC treatment. CONCLUSION AND CLINICAL IMPORTANCE: Plasma renin activity is a reliable tool for monitoring mineralocorticoid treatment. DOCP treatment more effectively suppresses PRA compared to FC in dogs with PH

Human physiologically based pharmacokinetic model for ACE inhibitors: ramipril and ramiprilat

BACKGROUND: The angiotensin-converting enzyme (ACE) inhibitors have complicated and poorly characterized pharmacokinetics. There are two binding sites per ACE (high affinity "C", lower affinity "N") that have sub-nanomolar affinities and dissociation rates of hours. Most inhibitors are given orally in a prodrug form that is systemically converted to the active form. This paper describes the first human physiologically based pharmacokinetic (PBPK) model of this drug class. METHODS: The model was applied to the experimental data of van Griensven et. al for the pharmacokinetics of ramiprilat and its prodrug ramipril. It describes the time course of the inhibition of the N and C ACE sites in plasma and the different tissues. The model includes: 1) two independent ACE binding sites; 2) non-equilibrium time dependent binding; 3) liver and kidney ramipril intracellular uptake, conversion to ramiprilat and extrusion from the cell; 4) intestinal ramipril absorption. The experimental in vitro ramiprilat/ACE binding kinetics at 4°C and 300 mM NaCl were assumed for most of the PBPK calculations. The model was incorporated into the freely distributed PBPK program PKQuest. RESULTS: The PBPK model provides an accurate description of the individual variation of the plasma ramipril and ramiprilat and the ramiprilat renal clearance following IV ramiprilat and IV and oral ramipril. Summary of model features: Less than 2% of total body ACE is in plasma; 35% of the oral dose is absorbed; 75% of the ramipril metabolism is hepatic and 25% of this is converted to systemic ramiprilat; 100% of renal ramipril metabolism is converted to systemic ramiprilat. The inhibition was long lasting, with 80% of the C site and 33% of the N site inhibited 24 hours following a 2.5 mg oral ramipril dose. The plasma ACE inhibition determined by the standard assay is significantly less than the true in vivo inhibition because of assay dilution. CONCLUSION: If the in vitro plasma binding kinetics of the ACE inhibitor for the two binding sites are known, a unique PBPK model description of the Griensven et. al. experimental data can be obtained