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: UMLS:C0018801 (heart failure)
72,216 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To determine whether cardiac unloading by inhibition of angiotensin I (AI) to AII conversion by captopril or blockade of the AII receptor (AT1) by losartan was more effective in prevention of the detrimental hemodynamic consequences of myocardial infarction (MI), inhibition of metabolic production of AII by captopril was compared with blockade of AT1 with losartan in Sprague-Dawley rats with large MI. Infarcts were created by surgical occlusion of the left main coronary artery and oral drug therapy initiated immediately and continued until hemodynamic evaluation seven days later. Heart weight was unchanged in untreated infarcted animals, whereas captopril reduced heart weight in control animals and losartan increased heart weight in infarcted animals. Left ventricular (LV) peak systolic blood pressure (SBP) was lower in treated and untreated infarcted animals. Although captopril reduced end-diastolic pressure (EDP) to a greater degree than losartan, all infarcted group showed an increase in this parameter with respect to similarly treated controls. LV peak rates of pressure increase and decay in infarcted hearts were decreased significantly more by captopril than by losartan administration. Captopril also impaired right side cardiac function more than losartan when peak rate of pressure increase was evaluated. Thus, inhibition of the effects of AII during cardiac failure improved but did not normalize cardiac pump performance.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Efficacy of angiotensin-converting enzyme inhibition and AT1 receptor blockade on cardiac pump performance after myocardial infarction in rats. 751 8

The renin-angiotensin system is critical for regulating extracellular fluid volume and blood pressure. Angiotensin II, the active peptide hormone produced by the renin enzymatic cascade, sustains vascular volume and blood pressure by constricting vessels, stimulating adrenal aldosterone secretion, increasing renal tubular sodium absorption, activating the sympathetic nervous system, and increasing cardiac contractility. These actions are a disability in the pathophysiologic states of hypertension and congestive heart failure (CHF), however, since reactive increases in renal renin and angiotensin II stimulate sympathetic activity and renal sodium retention, leading consequently to circulatory volume over-load. The actions of angiotensin II are mediated by its interactions with specific cell-surface angiotensin II receptors, namely, AT1 and AT2; most cardiovascular actions of angiotensin II come from its interaction with the AT1 receptor. Angiotensin-converting enzyme (ACE) inhibitors and angiotensin-II-receptor blockers antagonize the actions of the renin-angiotensin axis, neutralizing its effects on hypertension and heart failure. Losartan is the first oral, nonpeptide, selective AT1-receptor blocker to be approved. Clinical trials show it to be effective and well tolerated as therapy for hypertension and CHF. Data obtained thus far suggest ACE inhibitors and AT1-receptor blockers have similar efficacy for treating these conditions, but the receptor blockers appear to produce fewer adverse effects. Whether the sustained increase in angiotensin II concentrations after AT1-receptor antagonism produces deleterious effects is not known. The concern is that these high levels may stimulate unblocked AT2 receptor; the effect of that stimulation may not be important, however.
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PMID:Angiotensin receptors: physiology and pharmacology. 763 61

The role of the brain renin-angiotensin system (RAS) in heart failure was examined by administering intracerebroventricular (ICV) infusions of the angiotensin II (ANG II) type 1 (AT1)-receptor antagonist losartan (0.1 followed by 0.5 mg.kg-1.3 h-1) to six concious sheep before (nonpaced) and after induction of heart failure by rapid left ventricular pacing (paced). In both nonpaced and paced states, ICV losartan abolished drinking, induced a significant diuresis (P < 0.05) and anti-natriuresis (P < 0.05), and increased plasma renin activity (P < 0.05) and ANG II (P < 0.01) and aldosterone levels (0.1 > P > 0.05). Plasma arginine vasopressin was suppressed by ICV losartan only in the paced state (P < 0.05). Hemodynamics were not altered by ICV losartan in the nonpaced animals. In the paced state, however, significant reductions in left ventricular systolic, mean arterial, and left atrial pressures were observed (decrements of 13 +/- 7, 12 +/- 5, and 3.4 +/- 0.7 mmHg, respectively, all P < 0.05). In conclusion, ANG II within the brain participates in the regulation of thirst and body electrolyte and fluid homeostasis in normal and heart-failed sheep and appears to play a role in regulating resting hemodynamic status in this model of heart failure.
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PMID:Central angiotensin II AT1-receptor antagonism in normal and heart-failed sheep. 765 6

Losartan potassium (Cozaar) is an angiotensin II receptor antagonist (AT1 selective) which has undergone extensive clinical trials for the treatment of hypertension. This literature survey will review some of the pre-clinical findings with losartan in models of heart failure, and where appropriate, we will compare the haemodynamic findings in animals with similar studies completed in patients. The major conclusion from these trials is that losartan has clear haemodynamic benefits in patients in heart failure and that the drug appears to be well tolerated, with a low incidence of adverse experiences related to impaired renal function.
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PMID:Losartan in heart failure: preclinical experiences and initial clinical outcomes. 771 3

Angiotensin II (Ang II) receptor heterogeneity is currently defined by the new subtype-selective agents, losartan (AT1) and PD123177 (AT2). Although both subtypes have been cloned and sequenced, only the AT1 receptor has been shown to have an important physiological or pathophysiological role. AT1 and AT2 receptors are found in both normal and failing cardiac tissue. They are found on myocytes, endothelial cells, fibroblasts, coronary arterial smooth muscle cells, and peripheral sympathetic nerves. The AT1 receptors mediate virtually all of the effects of Ang II in myocytes even though cardiac tissue may contain over 50% AT2 sites. In endothelial cells, functional responses are predominately AT1. In fibroblasts, preliminary data suggest that AT2 receptors may be involved in collagen synthesis. In isolated tissue, Ang II has a limited positive inotropic effect in atrial, but not in ventricular tissue, which is blocked by losartan. Ang II may also have a tonic effect on coronary artery resistance as angiotensin inhibitors can increase coronary flow. Both ACE (Ang II synthesis) inhibitors and Ang II receptor antagonists produce beneficial effects in experimental models of heart failure, suggesting Ang II is an important mediator of heart failure. Because ACE inhibitors also potentiate bradykinin and are non-specific inhibitors of Ang II synthesis (availability of Ang II to both receptor subtypes) some differences can be anticipated. At the present time, however, the beneficial role of bradykinin is controversial and the predominant functional Ang II receptor in the heart and other tissues is the AT1 subtype.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Angiotensin II receptor subtypes: selective antagonists and functional correlates. 771 19

With the development of subtype specific angiotensin II (Ang II) receptor antagonists and their introduction into the treatment of heart failure and hypertension, the regulation of the Ang II receptor with its subtypes AT1 and Ang T2 gains clinical importance. In cell cultures, the number of surface AT1 is clearly down-regulated by Ang II exposure. Down-regulation can be due to reversible internalization, to phosphorylation and to reduced synthesis and involves protein kinase C and phospholipase C mediated pathways. In this respect, the AT1 behaves as a typical G-protein coupled receptor. Aldosterone, cAMP, norepinephrine and extracellular glucose concentrations can contribute to AT1 regulation. There are very few data regarding the regulation of the subtype AT2, indicating modulation by a number of growth factors and by Ang II. In whole animal models receptor regulation deviates partially from cell cultures. In the rat, the two subtypes AT1A and AT1B are differentially regulated and the expression of subtypes is organ specific. In most experiments, including our own experiences, the AT1, in the adrenals was up-regulated by Ang II infusion and down-regulated by angiotensin converting enzyme inhibitors (ACEI) or Ang II receptor antagonists. Differing effects were observed in other organs. In humans, a number of studies seeking an association between Ang II levels, Ang II receptor regulation and physiological events have been conducted in platelets. In pregnant women, a negative correlation between plasma Ang II levels and Ang II binding and an association between receptor regulation and pregnancy-induced hypertension has been described.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Regulation of the angiotensin receptor subtypes in cell cultures, animal models and human diseases. 771 21

Neutral endopeptidase inhibition (NEP-I) and angiotensin converting enzyme inhibition (ACE-I) act synergistically to produce acute beneficial hemodynamic effects in models of heart failure. Blockade of the formation of angiotensin II (Ang II) acting together with potentiation of the natriuretic peptides, bradykinin and other vasoactive peptides may mediate the interaction of dual enzyme inhibition. In this study, the potential roles of Ang II repression and bradykinin potentiation were evaluated in conscious cardiomyopathic hamsters with compensated heart failure. The Ang II AT1 receptor antagonist, SR 47436 (BMS-186295), was administered at 30 mumol/kg, i.v. followed by i.v. infusion at 1 mumol/kg/min in combination with NEP-I (SQ-28603 at 30 mumol/kg i.v.). Cardiac preload (left ventricular end diastolic pressure) and afterload (left ventricular systolic pressure) decreased significantly more after the combination of Ang II blockade and NEP-I than after either treatment alone. This indicated that repression of Ang II contributes importantly to the NEP-I/ACE-I interaction. Bradykinin B2 receptor antagonism by Hoe 140 at 100 micrograms/kg, i.v. significantly blunted the decrease in left ventricular end diastolic pressure but not the decrease in left ventricular systolic pressure after dual NEP-I/ACE-I (SQ-28603 and enalaprilat each at 30 mumol/kg, i.v.). This suggests that bradykinin potentiation contributes to the preload-reducing, but not the afterload-reducing, acute effects of NEP-I/ACE-I. Hence, both Ang II repression and bradykinin potentiation are factors contributing to the synergistic hemodynamic effects of combined NEP-I and ACE-I in hamsters with heart failure.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Repression of angiotensin II and potentiation of bradykinin contribute to the synergistic effects of dual metalloprotease inhibition in heart failure. 785 75

The 'angiotensin system' is expressed at the whole body, organ/tissue and cellular levels through the action of angiotensin II at specific receptors. An appreciation of the full scope of the actions of angiotensin II (endocrine, paracrine and autocrine) has been made possible by the discovery of the non-peptide angiotensin II receptor antagonists, losartan (DuP 753/MK954)(AT1-selective) and PD123177 (AT2-selective). Virtually all of the known effects of angiotensin II are blocked by losartan and designated AT1. Selective AT1 receptor blockade with losartan lowers BP in angiotensin II-dependent models of hypertension, reduces cardiac hypertrophy, improves haemodynamics in models of cardiac failure and reduces the intimal response to vascular injury. AT2 sites have been localised in distinct parts of the brain and in foetal tissue. The functional role of the AT2 sites remains controversial, but possible roles in neuronal ion channel function and collagen metabolism in fibroblasts have been reported. AT1 (losartan-sensitive) receptor subtypes have now been cloned from several rat tissues, suggesting that selective agents of the future may be even more specifically targeted. New perspectives in the control of the angiotensin system continue to evolve rapidly as the new receptor antagonists and molecular biology techniques expand our understanding of angiotensin II.
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PMID:New perspectives in angiotensin system control. 823 85

The receptor systems through which serotonin (5-HT), histamine, angiotensin II and endothelin increase the force of contraction were studied in isolated right atria from patients without apparent heart failure. All agonists increased the atrial force of contraction in a concentration-dependent manner; maximal effects, however, were significantly less than those evoked by isoprenaline or Ca2+. 5-HT and histamine, but not angiotensin II and endothelin, activated adenylate cyclase, whereas endothelin and angiotensin II stimulated inositol phosphate generation. Experiments with subtype-selective antagonists revealed that histamine effects were mediated by H2-receptors (sensitive to ranitidine), 5-HT-effects by 5-HT4-receptors (sensitive to SDZ 205-557) and angiotensin II effects by AT1-receptors (sensitive to losartan). We conclude that in human right atria the force of contraction can be increased by cyclic AMP-dependent (histamine, 5-HT) and -independent (angiotensin II, endothelin) pathways. Compared to beta-adrenoceptors, however, all other receptor systems increase the force of contraction only submaximally indicating that the beta-adrenoceptor pathway is the most important physiological mechanism to regulate force of contraction and/or heart rate in the human heart.
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PMID:Comparison of the positive inotropic effects of serotonin, histamine, angiotensin II, endothelin and isoprenaline in the isolated human right atrium. 838 86

The renin-angiotensin system plays an important role in the regulation of blood pressure and fluid and electrolyte homeostasis. Components of this system, renin, angiotensin converting enzyme (ACE) angiotensinogen, angiotensin II and angiotensin II receptors have been found in many tissues including kidney, adrenal, blood vessels and in discrete brain regions. This suggests that in addition to circulating angiotensin II, endogenous tissue renin-angiotensin system may also be important in cardiovascular control and maintaining fluid balance. Inhibitors for ACE are used successfully in the treatment of hypertension and chronic heart failure. In experimental animals, these inhibitors are found to block ACE in the kidney, lung, adrenal, blood vessels and the forebrain circumventricular organs after oral administration. The time course of tissue ACE inhibition correlated closely with the blood pressure lowering effect of these drugs. Most ACE inhibitors are unable to penetrate the blood-brain and blood-testis barriers. However, the more lipophilic drugs do penetrate the blood brain barrier, especially after chronic administration. The potential use of inhibitors for renin and angiotensin II receptors for the treatment of hypertension are being explored. An inhibitor for the AT1 angiotensin receptor, losartan (CAS 124750-99-8), which has potent antihypertensive effect, demonstrated dose and time dependent inhibition of AT1 receptors in the kidney and adrenal. Losartan also crossed the blood-brain barrier after acute peripheral administration suggesting additional possible central sites of action.
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PMID:Localization of components of the renin-angiotensin system and site of action of inhibitors. 849 67


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