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: EC:3.4.15.1 (ACE)
18,300 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Angiotensin II (Ang II) raises blood pressure (BP) by a number of actions, the most important ones being vasoconstriction, sympathetic nervous stimulation, increased aldosterone biosynthesis and renal actions. Other Ang II actions include induction of growth, cell migration, and mitosis of vascular smooth muscle cells, increased synthesis of collagen type I and III in fibroblasts, leading to thickening of the vascular wall and myocardium, and fibrosis. These actions are mediated by type 1 Ang II receptors (AT1), and may be blocked by losartan, a specific blocker of AT1 receptors. In particular, studies employing losartan have shown that Ang II is an important contributor to BP regulation and plays a significant role in hypertension and in the pathophysiology of vascular damage during the course of hypertension. Ang II is also involved in the process of atherosclerosis and in remodelling and repair processes of the myocardium following myocardial infarction. Finally, increased Ang II is an important part of neurohumoral activation in heart failure. Exciting new discoveries concerned with polymorphisms of genes coding for angiotensin converting enzyme (ACE) and angiotensinogen suggest that Ang II may be genetically associated with increased risk for myocardial infarction, hypertension and left ventricular hypertrophy.
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PMID:Role of angiotensin II in blood pressure regulation and in the pathophysiology of cardiovascular disorders. 858 76

The 'discovery' of losartan represents three separate discoveries: (1) losartan as the unique biphenyltetrazole molecule and the first of a new chemical class; (2) losartan as a tool to identify AT1-subtype receptors; and (3) losartan as a specific probe for exploring the multiple roles of angiotensin II (Ang II) in normal physiology and pathologic states. Losartan is the first nonpeptide orally active Ang II receptor antagonist to reach clinical trials. Losartan was selected for its affinity for Ang II receptors, functional antagonism of Ang II, lack of agonist properties, and oral anti-hypertensive effects. Losartan has been widely used to define the distribution and function of AT receptor subtypes. Although possible roles of the AT2 subtype have been reported, virtually all of the known effects of Ang II are blocked by losartan. Specific AT1 receptor blockade has been broadly compared with ACE inhibition. Possible differences on the basis of AT1 selectivity, bradykinin potentiating effects and Ang II formed by non-ACE pathways are discussed. Losartan blocks the vascular constrictor effect of Ang II, the Ang II-induced aldosterone synthesis and/or release, and the Ang II-induced cardiovascular 'growth' in vitro and in vivo. In various models of experimental hypertension, losartan prevents or reverses the elevated blood pressure and the associated cardiovascular hypertrophy similar to ACE inhibitors. Likewise, in models of renal failure (for example reduced renal mass, puromycin, ochratoxin), losartan, like ACE inhibition, markedly reduced the elevation in blood pressure, proteinuria or sclerosis. In aortocaval shunt, coronary ligation and ventricular pacing models of heart failure, losartan demonstrated a pathological role for Ang II by reversing the associated haemodynamic findings. In SHR-stroke prone, losartan dramatically increased survival while having a limited effect on blood pressure, suggesting a non-pressure dependent effect of Ang II. These collective data show that Ang II exerts complex pathological effects in experimental models of vascular, cardiac, renal and cerebral disease. The effectiveness of losartan in experimental models of heart failure supports its evaluation in clinical trials with patients with heart failure.
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PMID:Discovery of losartan, the first angiotensin II receptor antagonist. 858 79

One hundred and thirty five non-smoking hypertensive patients with ACE inhibitor cough confirmed by lisinopril rechallenge and placebo dechallenge were recruited into a double-blind random parallel-group comparison of losartan 50 mg, lisinopril 20 mg and hydrochlorothiazide 25 mg each given once daily for a maximum of 8 weeks. The aim of the study was to compare the incidence of cough with the angiotensin II antagonist losartan, the ACE inhibitor lisinopril and the hydrochlorothiazide in hypertensive patients with previous ACE inhibitor cough. Cough detected by self-administered questionnaire was the primary end-point, and cough frequency by visual analogue scale a secondary end-point. The incidence of cough with losartan (29%) was lower than that for lisinopril (72%, P < 0.01) and similar to that for hydrochlorothiazide (34%). Cough frequency by visual analogue scale was lower for losartan than lisinopril (P < 0.01) and similar to that for hydrochlorothiazide. The specific selective AT1 angiotensin II receptor antagonist losartan is significantly less likely than lisinopril to cause cough in patients who previously have had ACE inhibitor cough. ACE inhibitor cough is likely to be related to non-specific kininase II inhibition.
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PMID:ACE inhibitors, angiotensin II antagonists and cough. The Losartan Cough Study Group. 858 82

Angiotensin had a dual action on the epididymal half of rat vas deferens. It potentiated electrical stimulated contraction and exerted a direct contractile effect on the muscle. The potentiation of electrically stimulated response may be mediated by presynaptic facilitation of neurotransmitter release. Muscular contractile response to angiotensin is concentration dependent. Angiotensin II was found to be much more potent than angiotensin III, and the order of potencies was angiotensin II > angiotensin I > angiotensin III. The presence of a mixture of protease inhibitors (10 microM chymostatin, 50 microM bacitracin, 10 microM leupeptin and 10 microM pepstatin) did not alter the contractile activity of angiotensin II. In contrast, angiotensin I (10 nM)-induced contraction was significantly reduced in the presence of ACE inhibitor SQ 20881 (500 nM). The angiotensin II induced contraction was not reduced by CGP 42112, a specific AT2 receptor antagonist, but was significantly inhibited by losartan, a specific AT1 receptor antagonist. Losartan shifted the dose-response curve of angiotensin II to the right with a pA2 value of 8.68. In addition, p-aminophenylalanine6 angiotensin II, which is proposed as an AT2 receptor agonist, did not induce contraction. It is concluded that the AT1 receptor predominantly mediates angiotensin-induced contraction in epididymal rat vas deferens.
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PMID:Characterization of contractile response to angiotensin in epididymal rat vas deferens. 858 70

Two distinct types of cell-surface angiotensin II receptors (AT1 and AT2) have been defined pharmacologically and cDNAs encoding each type have been identified by expression cloning. These pharmacological studies showed the AT1 receptors to mediate all the known functions of angiotensin II in regulating salt and fluid homeostasis. Further complexity in the angiotensin II receptor system was revealed when homology cloning showed the existence of two AT1 subtypes in rodents and in situ hybridization and reverse transcription-polymerase chain reaction analyses showed their level of expression to be regulated differently in different tissues: AT1A is the principal receptor in the vessels, brain, kidney, lung, liver, adrenal gland and fetal pituitary, while AT1B predominates in the adult pituitary and is only expressed in specific regions of the adrenal gland (zona glomerulosa) and kidney (glomeruli). Expression of AT1A appears to be induced by angiotensin II in vascular smooth-muscle cells but is inhibited in the adrenal gland. Preliminary analysis of the AT1 promoters is also suggestive of a high degree of complexity in their regulation. Investigation of a potential role for altered AT1 receptor function has commenced at a genetic level in several diseases of the cardiovascular system. No mutations affecting the coding sequence have been identified in Conn adenoma and no linkage has been demonstrated with human hypertension by sib-pair analysis. None the less, certain polymorphisms that do not alter the protein structure have been found to be associated with hypertension and to occur at an increased frequency in conjunction with specific polymorphisms in the ACE gene in individuals at increased risk for myocardial infarction. Further characterization of the regions of the AT1 gene that regulate its expression are therefore needed. The physiological importance of the AT2 gene product still remains a matter of debate.
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PMID:Angiotensin II receptors: protein and gene structures, expression and potential pathological involvements. 864 Feb 85

In addition to inhibition of the circulating renin-angiotensin system, specific inhibition of the cardiac effects of angiotensin II (Ang II) represents an important therapeutic goal in the treatment of clinical heart failure. Subtype 1-specific Ang II receptor (AT1) antagonists have been developed to overcome potential limitations of angiotensin converting enzyme inhibitors, e.g. insufficient control of tissue Ang II production and bradykinin-related side effects. Clinical studies have demonstrated beneficial effects of AT1 antagonists. In a single-dose study, the AT1 antagonist losartan decreased the mean arterial pressure and pulmonary arterial pressure while increasing the cardiac index. Effects were dose dependent. Haemodynamic effects were greater with higher doses, but neurohormonal counter-regulation probably also increased, leading to relatively high levels of circulating Ang II with the 150-mg dose, A decrease in plasma levels of noradrenaline, atrial natriuretic factor, and aldosterone reached partial significance. Administration of multiple doses of losartan for 12 weeks also led to favourable haemodynamic and clinical results. Arterial blood pressure, pulmonary capillary wedge pressure, and systemic vascular resistance decreased. The neurohormonal effects of 12 weeks' administration of AT1 antagonists consisted in a decrease in plasma aldosterone concentrations. Whereas AT1 antagonists may counteract the effects of Ang II on the vasculature, and therefore are effective vasodilators, their direct myocardial effects are less clear. The subtype AT2, which represents the dominant, receptor in both healthy and failing human myocardium, is not blocked by AT1 inhibition. Angiotensin receptors on isolated human cardiac fibroblasts stimulate cellular proliferation via a yet undertermined receptor subtype. AT1 antagonists exert beneficial haemodynamic and neurohormonal effects in human heart failure. Their direct myocardial effects require further investigation.
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PMID:Effects of angiotensin receptor antagonists in heart failure: clinical and experimental aspects. 868 68

1. The ability of angiotensin II to modulate dopamine release from rat striatal slices in vitro and in the intact rat striatum in vivo was assessed by the microdialysis technique. 2. In slices of rat striatum, angiotensin II (0.1-1.0 microM) induced a concentration-related increase in endogenous dopamine release which was maximal (approximately 250% above basal levels) within the first 2-4 min of agonist application and subsequently declined to near basal values. The angiotensin II-induced increase in dopamine release was Ca(2+)-dependent and was completely antagonized by the selective AT1 receptor antagonist, losartan (1.0 microM). In contrast, the AT2 receptor antagonist, PD123177 (1.0 microM) failed to modify the angiotensin II-induced response. Neither antagonist alone modified basal dopamine release from striatal slices. 3. In freely moving rats, angiotensin II (1.0-10 microM; administered via the microdialysis probe) induced a concentration-related increase in extracellular levels of dopamine which was maximal (approximately 150% above basal levels) within 20-40 min of agonist application and subsequently declined. The angiotensin II (10 microM)-induced increase in extracellular levels of dopamine was completely antagonized by the AT1 receptor antagonist, losartan (0.1-1.0 microM; administered via the microdialysis probe) but not by the AT2 receptor antagonist, PD123177 (1.0 microM; administered via the microdialysis probe). Neither antagonist alone modified basal extracellular levels of dopamine. 4. Homogenate radioligand binding studies with [125I]-angiotensin II (0.1 nm) identified relatively low levels of specific binding sites in rat striatal homogenates compared to homogenates of pyriform cortex (51.3 +/- 9.2 and 651.3 +/- 55.1 fmol g-1 wet weight, respectively, mean +/- s.e.mean, n = 3; non-specific binding defined by unlabelled angiotensin II). The majority of the specific [125I]-angiotensin II (0.1 nM) binding in the striatal and pyriform cortex homogenates was sensitive to the selective AT1 receptor antagonist, losartan (1.0 microM). 5. In conclusions the present study provides direct evidence that angiotensin II acting via the AT1 receptor subtype facilitates the release of dopamine in the rat striatum in vitro and in vivo. This receptor-mediated response may account for the modulation of dopamine-mediated behavioural responses by antagonists of the AT1 receptor and inhibitors of angiotensin converting enzyme.
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PMID:Ability of angiotensin II to modulate striatal dopamine release via the AT1 receptor in vitro and in vivo. 873 46

Angiotensin II has been demonstrated to be involved in the regulation of cellular growth of several tissues in response to developmental, physiological, and pathophysiological processes. Angiotensin II has been implicated in the developmental growth of the left ventricle in the neonate and remodeling of the heart following chronic hypertension and myocardial infarction. The inhibition of DNA synthesis and collagen deposition in myocardial interstitium following myocardial infarction by angiotensin converting enzyme inhibitor, suggests that angiotensin II mediates interstitial and perivascular fibrobrosis by preventing fibroblast proliferation. In the past, little attention was focused on the identity and functional roles of cardiac fibroblasts. Recent in vitro studies utilizing cultured cardiac fibroblasts demonstrate that angiotensin II, acting via the AT1 receptor, initiates intracellular signalling pathways in common with those of peptide growth factors. Below, we describe growth-related aspects of cardiac fibroblasts with respect to angiotensin II receptors, conventional and novel signal transduction systems, secretion of extracellular matrix proteins and growth factors, and localization of renin-angiotensin system components.
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PMID:Angiotensin II signalling pathways in cardiac fibroblasts: conventional versus novel mechanisms in mediating cardiac growth and function. 873 24

Several new non-peptide, orally active, angiotensin II receptor antagonists have recently been developed which enable to block the renin-angiotensin system at the AT1 receptor site. In contrast to angiotensin converting enzyme (ACE) inhibitors, these antagonists do not interfere with the metabolism of kinins. The effect of these agents on renal function may thus potentially differ from those of ACE inhibitors. Therefore, the renal pharmacology of various angiotensin II receptor antagonists has been examined in normotensive subjects. In normotensive subjects, losartan and irbesartan have been shown to have no effect on glomerular filtration rate and to induce either no change or a modest increase in renal blood flow. These results were confirmed thereafter in hypertensive patients where losartan produced a renal vasodilation with no change in glomerular filtration. In healthy subjects, both losartan and irbesartan induce an acute increase in urinary sodium excretion. The natriuretic response to losartan is proportionally more important during salt-depletion. In contrast to other angiotensin II receptor antagonists, losartan has a unique property to increase uric acid excretion. In this paper we show that this property is due to the potent inhibitory effect of the parent compound of losartan on the urate/anion transport in the human renal proximal tubule.
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PMID:Renal effects of angiotensin II receptor blockade in normotensive subjects. 874 98

L-163,017 (6-[benzoylamino]-7-methyl-2-propyl-3-[[2'-(N-(3-methyl-1-butoxy) carbonylaminosulfonyl)[1,1']-biphenyl-4-yl]methyl]-3H-imidazo[4,5- b]pyridine) is a potent, orally active, nonpeptide angiotensin II receptor antagonist. Conscious rats and dogs were dosed p.o. and i.v.; in both species the plasma bioequivalents are similar at the angiotensin AT1 and AT2 receptor sites indicating balanced activity is maintained in vivo. L-163,017 prevents the pressor response to intravenous (i.v.) angiotensin II in the conscious rat, dog, and rhesus monkey. L-163,017 also significantly reduces blood pressure in a renin-dependent model of hypertension, similar to an angiotensin converting enzyme inhibitor (Enalapril) and an angiotensin AT1 receptor-selective antagonist (L-159,282). These studies indicate that neither the angiotensin AT2 receptor nor bradykinin is important in the acute antihypertensive activity of angiotensin converting enzyme inhibitors or angiotensin II receptor antagonists.
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PMID:In vivo pharmacology of an angiotensin AT1 receptor antagonist with balanced affinity for AT2 receptors. 875 Jul 4


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