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 13,001 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Type 1 receptors (AT1) for the peptide hormone angiotensin II play a crucial role in the cardiovascular homeostasis. In this regard, several selective, orally active non-peptide antagonists have been developed for the treatment of hypertension and congestive heart failure. Pre-clinically, they have been routinely tested for their ability to inhibit angiotensin II induced contraction of rabbit aorta strips. This led to the distinction between surmountable antagonists, which only produce a parallel rightward shift of the angiotensin II concentration- induced response curve, and insurmountable antagonists that also decrease the maximal response. The molecular mechanism that is responsible for insurmountable antagonism has been extensively investigated in Chinese Hamster Ovary cells transfected expressing the human AT1 receptor. These experiments revealed that all biphenyltetrazole-countering AT1 receptor antagonists are competitive with angiotensin II and that the insurmountable behaviour of some of them is related to the formation of a long lasting/tight binding state of the antagonist-receptor complex. This may contribute to their long lasting clinical effect. This paper also focuses on the influence of a number of methodological approaches used to study AT1 receptor antagonists on their observed in vitro receptor binding properties.
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PMID:AT1 receptor antagonists. 1532 Aug 8

The results issued from experimental models and randomized controlled clinical trials have shown that the more intense is the blockade of the renin-angiotensin system (RAS), the more effective is the prevention of target organ damage. Combined inhibition of the RAS is aimed at more complete blockade of the system through action at two different sites, angiotensin I converting enzyme (ACE) and AT1 receptors. This is achieved either by neutralizing the rise in renin and angiotensin (Ang) I, which follows the interruption of the Ang II-renin negative feed-back loop, or by directly antagonizing Ang II, whose synthesis is in part independent of the RAS. By comparison with higher doses of single site RAS blockers, a combination of an ACE inhibitor and an AT1 receptor antagonist block more effectively the RAS. After the demonstration of its synergistic or additive blood pressure lowering effects in sodium depleted normotensive subjects and animal models, combined blockade of the RAS was shown to be more efficient than single site RAS blockade: 1. in lowering blood pressure in hypertensive patients; 2. in lowering proteinuria and possibly retarding progression of renal failure in patients with diabetic and non-diabetic nephropathy; 3. finally, in improving left ventricular remodelling, cardiac function status and cardiovascular morbidity and mortality in patients with congestive heart failure. The advantage offered by combining two RAS blockers is to increase the beneficial effect of cardioprotection and nephroprotection which are currently demonstrated with the highest doses of an ACE inhibitor or an AT1 receptor antagonist.
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PMID:[Blockade of the renin-angiotensin system by a combination of ACE inhibitors and AT1 receptor antagonists]. 1549 22

Most individuals with arterial hypertension or congestive heart failure are insulin-resistant and at a higher risk of developing type 2 diabetes (T2DM). The inhibition of the renin-angiotensin system (RAS), using an angiotensin converting enzyme inhibitor (ACEI) or a selective angiotensin receptor AT1 blocker (ARB), may exert favourable metabolic effects capable of preventing T2DM in high risk individuals. We performed a meta-analysis of randomised clinical trials (RCTs) assessing the effects of RAS inhibition on the incidence of new cases of T2DM in patients with arterial hypertension or congestive heart failure. Ten RCTs with cardiovascular prognosis as primary endpoints analysed the incidence of T2DM as secondary endpoints or as post-hoc analysis after a mean follow-up of 1 to 6 years: five with an ACEI and five with an ARB, compared with a placebo (n=4) or a reference drug (beta-blocker or diuretic: n=5; amlodipine: n=2). Eight RCTs concerned hypertensive patients: STOP Hypertension-2 (lisinopril or enalapril vs beta-blocker or diuretic), CAPPP (captopril vs thiazide or beta-blocker), HOPE (ramipril vs placebo), ALLHAT (lisinopril vs chlorthalidone and lisinopril vs amlodipine), LIFE (losartan vs atenolol), SCOPE (candesartan vs placebo), ALPINE (candesartan vs placebo) and VALUE (valsartan vs amlodipine). Two RCTs concerned patients with congestive heart failure: SOLVD (enalapril vs placebo) and CHARM-overall programme (candesartan vs placebo). Overall, 2 675 new cases of T2DM (7.40%) were observed in the group of 36 167 patients receiving a treatment with ACEI or ARA as compared with 3 842 events (9.63%) in the group of 39 902 control patients. A mean weighed relative risk reduction of new T2DM of 22% (95% CI: 18, 26; p<0.00001) was observed after RAS inhibition. The beneficial effect was similar with ACEIs and with ARBs as well as in patients with hypertension and in those with heart failure, and was also present whatever the comparator (placebo or beta-blockers/diuretics or amlodipine). The number needed-to-treat to avoid one new case of T2DM averaged 45 patients over 4-5 years. In conclusion, RAS inhibition consistently and significantly reduces the incidence of T2DM in individuals with arterial hypertension or with congestive heart failure. Considering the pandemic of T2DM, such pharmacological approach deserves further attention among the strategies aiming at preventing T2DM.
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PMID:Renin-angiotensin system inhibition prevents type 2 diabetes mellitus. Part 1. A meta-analysis of randomised clinical trials. 1567 18

The inhibition of the renin-angiotensin system (RAS) with either angiotensin converting enzyme inhibitors (ACEIs) or AT1 angiotensin receptor blockers (ARBs) consistently and significantly reduces the incidence of type 2 diabetes in patients with hypertension or congestive heart failure. The mechanisms underlying this protective effect appear to be complex and may involve an improvement of both insulin sensitivity and insulin secretion. These two effects may result, at least in part, from the well known effects of these pharmacological agents on the vascular system on the one hand, on the ionic balance on the other hand. Indeed, the vasodilation induced by ACEIs or ARBs could improve the blood circulation in skeletal muscles, thus favouring peripheral insulin action, but also in the pancreas, thus promoting insulin secretion. Preserving cellular potassium and magnesium pools by blocking the aldosterone effects could also improve both cellular insulin action and insulin secretion. However, besides these classical effects, new mechanisms have been recently suggested. A direct effect of the inhibition of angiotensin and/or of the enhancement of bradykinin on various steps of the insulin cascade signalling has been described as well an increase in GLUT4 glucose transporters after RAS inhibition. Furthermore, it has been demonstrated that angiotensin II inhibits adipogenic differentiation of human adipocytes via A1 receptors and, therefore, it has been hypothesised that RAS blockade may prevent diabetes by promoting the recruitment and differentiation of adipocytes. Finally, some lipophilic ARBs appear to induce PPAR-gamma activity in the adipose tissue. Hence, the protection against type 2 diabetes observed after RAS inhibition may be partially linked to a thiazolidinedione-like effect. In conclusion, numerous physiological and biochemical mechanisms could explain the protective effect of RAS inhibition against the development of type 2 diabetes in individuals with arterial hypertension or congestive heart failure. What might be the main mechanism in the overall protection effect of ACEIs or ARBs remains an open question.
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PMID:Renin-angiotensin system inhibition prevents type 2 diabetes mellitus. Part 2. Overview of physiological and biochemical mechanisms. 1567 19

Blockade of the renin-angiotensin system (RAS) is now recognised as an effective approach for the treatment of hypertension and congestive heart failure (CHF). Today, it is possible to antagonise the effects of angiotensin II more specifically by blocking its receptors using non-peptide receptor antagonists. These compounds, which at first were used to identify the various subtypes of angiotensin II receptors, are now available clinically. Some of them have recently been launched on the market and several others are preregistered for the treatment of hypertension. These new molecules are as effective as angiotensin converting enzyme (ACE) inhibitors at lowering blood pressure in hypertensive patients, and appear to have similar systemic and renal haemodynamic properties in patients with CHF and renal diseases. Large-scale clinical trials such as the LIFE, the ELITE and the RENAAL studies are now underway to investigate the long-term benefits of one of these agents in hypertension, heart failure and Type II diabetic nephropathy. The major clinical advantage of AT1 receptor antagonists is that, in contrast to ACE inhibitors, they do not induce cough. With the more widespread use of AT1 receptor antagonists, two unresolved questions remains unanswered: what is the role of AT2 receptors? Are the unblocked effects of angiotensin II on AT2 receptor sites of any clinical relevance to the safety profile or efficacy of AT1 receptor antagonists? Another interesting question is whether the combination of an ACE inhibitor with an AT1 receptor antagonist is advantageous. Studies attempting to answer these questions are underway and will certainly enable researchers to define more precisely the role and the advantages of these new specific non-peptide AT1 receptor antagonists in the treatment of hypertension and heart failure.
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PMID:Angiotensin II receptor antagonists - antihypertensive agents. 1598 15

Despite the introduction of new antihypertensive agents such as angiotensin-converting enzyme inhibitors and calcium channel antagonists, the blood pressure of fewer than 30% of hypertensive patients is controlled with current therapies; compliance and continuation with medication are poor. The renin-angiotensin system is important in the pathophysiology of hypertension, end-organ damage and congestive cardiac failure. Irbesartan is an angiotensin II receptor antagonist that provides dose-dependent, specific, insurmountable blockade of the AT1 receptor both in vivo and in vitro. It is rapidly absorbed after oral administration, has a bioavailability of 60-80% with no food effect, does not require metabolism to a bioactive compound, and is excreted by both biliary and renal routes so that dosage adjustments are unnecessary in patients with renal or hepatic disease. Irbesartan produces dose-dependent blood pressure reductions, with 24 h activity confirmed by ambulatory blood pressure monitoring. Irbesartan is effective in the elderly and non-elderly, men and women and in cases of mild and severe hypertension. The recommended starting dosage is 150 mg once daily (o.d.), which can be increased to 300 mg. Its antihypertensive effect is accentuated by diuretic co-administration. In controlled clinical trials, irbesartan was at least as effective as atenolol, hydrochlorothiazide, amlodipine and enalapril. In a double-blind study, irbesartan 300 mg was more effective than losartan 100 mg, and in a dose-titration study, irbesartan 150-300 mg produced significantly greater blood pressure reductions than losartan 50-100 mg. In pooled data from nine placebo-controlled studies, adverse event and discontinuation rates for irbesartan were similar to those for placebo, and there was no relationship between dose and adverse effects. Preliminary clinical data suggest positive haemodynamic effects in heart failure and renoprotective effects in diabetic nephropathy.
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PMID:Pharmacology of irbesartan. 1599 21

Reference data on the function of renin-angiotensin-aldosterone system (RAAS) and pharmacological correction of its hyperactivity are summarized and analyzed in the paper. RAAS plays important role in the development and worsening of hypertension, facilitates proliferation of smooth muscle and heart cells. The hyperactivity of RAAS promotes the development of cardiovascular complications, such as myocardial infarction, stroke, increases cardiovascular mortality and morbidity. Pharmacological correction of RAAS hyperactivity decreases hypertension, prevents occlusion of heart and blood vessels, provides anti-ischemic action, vascular and cardiac protection, improves life style, prevents cardiovascular mortality, such as fatal stroke, myocardial infarction and sudden death. b-blocker inhibitors, angiotensin converting enzyme (ACE) inhibitors, angiotensin AT1-receptors blockers are reviewed as first line therapy of essential hypertension and congestive heart failure. ACT inhibitors, AT1- receptor blockers decrease total cholesterol, LDL, but increase HDL, beta-blockers decrease HDL. AT1-blockers are alternative drugs for treatment of cardiovascular diseases in those cases where ACE inhibitors are contraindicated or intolerance exists.
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PMID:[Pharmacological correction of hyperactivity of renin-angiotensin-aldosterone system]. 1644 43

Lung structural remodelling, characterized by myofibroblast proliferation and collagen deposition, contributes to impaired functional capacity in CHF (congestive heart failure). As the lung is the primary site for the formation of Ang II (angiotensin II), local modifications of this system could contribute to lung remodelling. Rats with CHF, induced following myocardial infarction (MI) via coronary artery ligation, were compared with sham-operated controls. The MI group developed lung remodelling as confirmed by morphometric measurements and immunohistochemistry. Pulmonary Ang II concentrations increased more than 6-fold (P<0.01), and AT1 (Ang II type 1) receptor expression was elevated by 3-fold (P<0.01) with evidence of distribution in myofibroblasts. AT2 (Ang II type 2) receptor expression was unchanged. In isolated lung myofibroblasts, AT1 and AT2 receptors were expressed, and Ang II stimulated proliferation as measured by [3H]thymidine incorporation. In normal rats, chronic intravenous infusion of Ang II (0.5 mg.kg(-1) of body weight.day(-1)) for 28 days significantly increased mean arterial pressure (P<0.05), without pulmonary hypertension, lung remodelling or a change in AT1 receptor expression. We conclude that there is a modification of the pulmonary renin-angiotensin system in CHF, with increased Ang II levels and AT1 receptor expression on myofibroblasts. Although this may contribute to lung remodelling, the lack of effect of increased plasma Ang II levels alone suggests the importance of local pulmonary Ang II levels combined with the effect of other factors activated in CHF.
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PMID:Modification of the pulmonary renin-angiotensin system and lung structural remodelling in congestive heart failure. 1664 May 5

Angiotensin II (Ang II) plays an important role in the enhanced chemoreflex function that occurs in congestive heart failure (CHF), but the mechanism of this effect within the carotid body (CB) is not known. We investigated the sensitivity of Ca2+-independent, voltage-gated K+ (Kv) channels to hypoxia in CB glomus cells from CHF rabbits, and whether endogenous angiotensin II (Ang II) modulates this action. Using the conventional whole-cell patch clamp technique, we found that Kv currents (IK) under normoxic conditions were blunted in the CB glomus cells from CHF rabbits compared with sham rabbits. In addition, the inhibition of IK and the decrease of resting membrane potential (RMP) induced by hypoxia were greater in CHF versus sham glomus cells. Ang II, at 100 pM, had no direct effect on IK at constant normoxic PO2, but increased the sensitivity of IK and RMP to hypoxia in sham glomus cells. In CHF glomus cells, an AT1 receptor (AT1R) antagonist, L-158 809 (1 microM), alone did not affect IK at normoxia, but it decreased the sensitivity of IK and RMP to hypoxia. At higher concentrations, Ang II dose dependently (0.1-100 nM) reduced IK under constant normoxic conditions in sham and CHF glomus cells, with threshold concentrations of about 900 and 600 pM, respectively. Immunocytochemical and Western blot assessments demonstrated the down-expression of Kv3.4 but not Kv4.3 channels in CHF glomus cells. These results indicate that: (1) Ang II/AT1R signalling increases the sensitivity of Kv channels to hypoxia in CB glomus cells from CHF rabbits; (2) high concentrations of Ang II (> 1 nM) directly inhibit IK in CB glomus cells from sham and CHF rabbits; (3) changes in Kv channel protein expression (Kv3.4 versus Kv4.3) in the CB glomus cell may contribute to the suppression of IK and enhanced sensitivity of IK to hypoxia in CHF.
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PMID:Enhanced sensitivity of Kv channels to hypoxia in the rabbit carotid body in heart failure: role of angiotensin II. 1680 56

The renin-angiotensin-aldosterone-system (RAAS) is an important regulator of blood pressure and fluid-electrolyte homeostasis. RAAS has been implicated in pathogenesis of hypertension, congestive heart failure, and chronic renal failure. Aliskiren is the first non-peptide orally active renin inhibitor approved by FDA. Angiotensin Converting Enzyme (ACE) Inhibitors are associated with frequent side effects such as cough and angio-oedema. Recently, the role of ACE2 and neutral endopeptidase (NEP) in the formation of an important active metabolite/mediator of RAAS, ang 1-7, has initiated attempts towards development of ACE2 inhibitors and combined ACE/NEP inhibitors. Furukawa and colleagues developed a series of low molecular weight nonpeptide imidazole analogues that possess weak but selective, competitive AT1 receptor blocking property. Till date, many compounds have exhibited promising AT1 blocking activity which cause a more complete RAAS blockade than ACE inhibitors. Many have reached the market for alternative treatment of hypertension, heart failure and diabetic nephropathy in ACE inhibitor intolerant patients and still more are waiting in the queue. But, the hallmark of this area of drug research is marked by a progress in understanding molecular interaction of these blockers at the AT1 receptor and unraveling the enigmatic influence of AT2 receptors on growth/anti-growth, differentiation and the regeneration of neuronal tissue. Different modeling strategies are underway to develop tailor made molecules with the best of properties like Dual Action (Angiotensin And Endothelin) Receptor Antagonists (DARA), ACE/NEP inhibitors, triple inhibitors, AT2 agonists, AT1/TxA2 antagonists, balanced AT1/AT2 antagonists, and nonpeptide renin inhibitors. This abstract gives an overview of these various angiotensin receptor antagonists.
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PMID:An update on non-peptide angiotensin receptor antagonists and related RAAS modulators. 1769 38


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