Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0004135 (ATM)
 13,001 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Two of the most highly recognized factors implicated in the pathogenesis of hypertension, atherosclerosis, congestive heart failure and associated cardiovascular disease are the renin angiotensin system (RAS) and estrogen. A major effect of estrogen results from its influence on the RAS. Beta-estradiol (E2) replacement in ovariectomized (OVX) rats significantly decreased type 1 angiotensin (AT1) receptor expression in the pituitary and adrenal, whereas it significantly increased receptor expression in the uterus when compared to OVX controls. Additional evidence demonstrated an important influence of estrogen on a recently discovered post-transcriptional mechanism for regulating expression of the AT1 receptor. This mechanism consists of cytosolic RNA binding proteins (BPs) that recognize the 5' leader sequence (5'LS) of the receptor mRNA. The activities of these 5'LS BPs were modulated by estrogen in an inverse manner to AT1 receptor regulation. Moreover, in vitro translation assays in wheat germ lysates suggested that the 5'LS BPs inhibited AT1 receptor translation. Our data therefore indicate that hormonal regulation of AT1 receptors involves modulation of 5'LS BPs by estrogen. These findings may in part account for the observed protective effects of estrogen on cardiovascular disease.
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PMID:Estrogen regulates angiotensin AT1 receptor expression via cytosolic proteins that bind to the 5' leader sequence of the receptor mRNA. 1053 76

Oxygen consumption at peak exercise (peak VO2) is a strong independent predictor of the outcome in congestive heart failure (CHF). Renin-angiotensin system inhibition with either ACE or AT1 receptor blockers is effective on peak VO2. We evaluated whether mechanisms are similar for the 2 categories of drugs and whether their combination is able to produce a synergistic effect. Twenty CHF patients were randomized to receive, in a double-blind fashion, placebo + placebo (P+P), enalapril (20 mg/day) + placebo (E+P), losartan (50 mg/day) + placebo (L+P), and enalapril + losartan (E+L) or the same preparations in a reverse order, each for 8 weeks. Two patients did not complete the trial. Pulmonary function, cardiopulmonary exercise test, plasma neurohormones, and quality of life were assessed at the end of each treatment. Compared with P+P, E+P, and L+P similarly (16% and 15%, respectively) and significantly (p <0.01) augmented peak VO2. Enalapril improved lung function (reduced slope of ventilation vs carbon dioxide production and dead space to tidal volume ratio, and increased alveolar membrane conductance and tidal volume). Losartan likely activated the exercising muscle perfusion (raised delta VO2/delta work rate, which is a measure of aerobic work efficiency). In combination, they further increased peak VO2, 10% from E+P (p <0.05) and 11% from L+P (p <0.05). Compared with run-in, E+P and L+P significantly reduced plasma norepinephrine by 70 +/- 14 pg/ml and 100 +/- 16 pg/ml and aldosterone by 1.6 +/- 0.7 ng/dl and 1.6 +/- 0.8 ng/dl. These changes were significantly greater when the drugs were combined (140 +/- 20 pg/ml for norepinephrine, and 5.6 +/- 0.9 ng/dl for aldosterone). Quality-of-life score did not improve significantly at each treatment step. Thus, lorsartan and enalapril similarly increased peak VO2 in CHF patients, but mediators of this effect were, at least in part, different therapeutic targets that may be synergistic when the 2 drugs are combined.
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PMID:Synergistic efficacy of enalapril and losartan on exercise performance and oxygen consumption at peak exercise in congestive heart failure. 1056 60

This article reviews the impressive amount of knowledge accumulated in the last few years on the angiotensin II AT2 subtype receptor. Although still elusive, a large body of experimental evidence strongly suggests that it may play an important role in the adaptive changes of the cardiovascular structures in response to pathological conditions such as myocardial infarction, congestive heart failure or hypertension. The most intriguing aspects of the biology of this receptor, however, appear to be: 1) the regulation of its transcription, which plays an important role in the expression of the protein in adults or in injured tissues; 2) its interaction or "cross-talk" with the predominant angiotensin II receptor, the AT1 subtype, or with the receptors of other growth factors or cytokines; and 3) its connections with the bradykinin/nitric oxide pathways. These aspects may be relevant for the therapeutical use of drugs which antagonize the renin-angiotensin system, such as angiotensin-converting enzyme inhibitors or angiotensin receptor antagonists, as well as for new therapeutic approaches to the treatment of cardiovascular diseases.
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PMID:Angiotensin II AT2 subtype receptors: an emerging target for cardiovascular therapy. 1073 Jun 8

The renin-angiotensin system (RAS) represents today one of the most strategic targets of the therapy of cardiovascular diseases. During the last 30 years a number of more or less successful approaches to inhibit the activity of the RAS have been attempted. In particular, the use of ACE-inhibitiors has led to significant improvments in the outcom/treatment of hypertension, congestive heart failure, ischemic heart disease and nephropathies. On the other hand, Ace-inhibitors are not specifically targeted to RAS since they interfere with an enzyme with multiple different substrates. Furthermore, the inhibition of ACE does not prevent the formation of angiotensin II through alternative pathways, and thus the inhibition of RAS is often incomplete, especially under pathologic conditions stimulating RAS. For these reasons, the recent discovery of angiotensin II receptors antagonists, which selectively inhibit the action of angiotensin II at the level of the AT1 subtype receptor, is particularly attracting. This article reviews the background, the rationale and some of the clinical findings and potential applications with this new class of compounds.
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PMID:Therapeutic applications of angiotensin II receptor antagonists. 1079 May 92

The pathogenesis of hypertension in haemodialyzed uraemic patients is multifactorial. The following are involved: sodium and water retention as a result of the impaired excretory capacity of the kidneys, excessively increased activity of the RAAS and sympathetic nerve, increased levels of the vascular constrictor endothelin-1, cumulation of endogenous inhibitors of NO synthesis and reduced formation of vasodepressor factors. As to other factors in the development of hypertension raised intracellular calcium associated with hyperparathyroidism may participate, the stiffness of calcified arteries, erythropoietin treatment and preexisting essential hypertension. Treatment comprises salt restriction below 5 g/day, systematic control of the volume of extracellular fluid by ultrafiltration during every haemodialysis to the level of so-called dry weight and pharmacological treatment in patients where volume control dos not suffice. All drug groups are used. In their selection contraindications are taken into consideration as well as co-morbidity, the dialyzability of antihypertensive drugs and compelling evidence. In patients with a preserved residual diuresis furosemide is administered--125-750 mg/day. Beta-blockers are indicated in patients with IHD, in particular after IM. Calcium blockers are recommended in ventricular hypertrophy and diastolic dysfunction, when beta-blockers are contraindicated and in elderly patients. ACEI indicated in congestive heart failure and left ventricular hypertrophy with systolic dysfunction. Inhibitors of AT1 receptors are an alternative in case of undesirable effects od ACEI. Alpha-blockers and central alpha agonists are used mainly in combinations. In case of failure the haemodialyzation method can be altered or changing the patients to CAPD may be considered. The relationship between BP and the survival of haemodialyzed patients is bimodal. An adverse effect is exerted by a high as well as low BP and in particular by interdialyzation hypotension. The target BP for the haemodialyzed population has not been defined so far. There is, however, evidence that a high BP is independently associated with the de novo development of IHD and MAP above 106 mm Hg with de novo development of cardiac failure. MAP below 98 mm Hg minimalizes the development and progression of left ventricular hypertrophy and MAP below 106 mm Hg the development of heart failure. Long-term survival for 15 and more years is statistically significantly associated with MAP lower than 99 mm Hg.
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PMID:[Hypertension in hemodialyzed uremic patients]. 1095 54

Angiotensin II AT1-receptor blockers (AT1-s) prolong survival in experimental postischemic (coronary artery ligation) heart failure (CHF) in rats. The goal of this study was to investigate whether potential beneficial effects of short- and/or long-term treatment with AT1-s on coronary dynamics, function, and structure develop along with the drug-induced survival prolongation in this model. Coronary blood flow was measured (fluorescent microspheres) in conscious sham, untreated, and irbesartan-treated (50 mg/kg daily for 6 weeks or 6 months, starting 8 days after surgery) CHF rats at baseline and at maximal vasodilatation induced by dipyridamole, and coronary dilatation reserve (CDR) was calculated as the ratio of maximal to baseline coronary flow. Coronary endothelial function was assessed in vitro by measuring the coronary relaxant responses to acetylcholine in the three groups of animals. Finally, cardiac hypertrophy and pericoronary fibrosis also were investigated. In CHF rats, left (LV) and right (RV) ventricular CDR were markedly depressed at both 7 weeks and 6 months after ligation, whereas coronary endothelial function was significantly impaired only after 6 months. Short-term AT1-receptor blockade with irbesartan did not prevent CDR deterioration at 7 weeks, nor did it significantly oppose cardiac hypertrophy and pericoronary fibrosis development. Prolonged AT1-receptor blockade prevented both RV CDR deterioration and coronary endothelial function impairment. It also limited significantly the increase in LV end diastolic pressure and the development of cardiac hypertrophy and pericoronary fibrosis. In conclusion, in postischemic CHF in rats, alterations of CDR precede those of coronary endothelial function. Long-, but not short-term AT1-receptor blockade prevents endothelial function degradation, opposes RV CDR impairment, prevents pericoronary fibrosis development, and improves systemic hemodynamics. These effects of AT1-s on coronary dynamics, function, and structure (i.e., on myocardial perfusion) may contribute to the drug-induced survival prolongation in this model.
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PMID:Effects of angiotensin II AT1-receptor blockade on coronary dynamics, function, and structure in postischemic heart failure in rats. 1097 90

The development of pharmacological agents that block the renin-angiotensin system (RAS) specifically have helped to define all the components of the system and their contribution to blood-pressure control and to the pathogenesis of hypertension, congestive heart failure and chronic renal failure. The angiotensin converting-enzyme inhibitors (ACEi) are among all available drugs that interfere with the RAS, the most efficient, so far, in the treatment of several cardiovascular diseases, with comfortable posologic schemes and an acceptable safety profile. The most important difference between them are more related to pharmacokinetic profile rather than to pharmacodynamic characteristics. With the use of ACEi the interference with other neurohumoral systems is unavoidable and the controversy has been pharmacologically and clinically installed. With the advent of oral selective AT1 angiotensin II receptor blockers (ARB) the pharmacological interference became eventually much more selective. Their antihypertensive efficacy is identical and their tolerability is better than that showed by ACEi. The ARBs differ mainly in their pharmacokinetics and in their binding capacity to the AT1 angiotensin receptor. The results of several ongoing clinical trials will show if the ARBs as ACEi will be capable to protect target-organs and to promote a significant reduction in cardiovascular morbility and mortality. In parallel there is an intense experimental and clinical research with other groups of drugs which also markedly interfere with RAS: renin inhibitors, chymase inhibitors and simultaneous inhibitors of vasopeptidases (ACE, endothelin converting-enzyme, neutral endopeptidase). From the pharmacological point of view, it is now possible to block effectively RAS with some relevant clinical results that will be certainly widen in the near future.
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PMID:[Angiotensin converting enzyme inhibitors (ACEIs) and angiotensin II receptor antagonists. Pharmacologic features]. 1130 8

The ARBs are a new class of drugs with broad therapeutic potential in cardiovascular disease. These agents act by selectively inhibiting the AT1 subtype of the angiotensin II receptors. They are effective antihypertensive agents with promise, theoretically, in the prevention and regression of ventricular hypertrophy. They are safe and well tolerated in patients with CHF and might be effective in improving survival and reducing morbidity. ARBs also might have a similar role in improving the clinical outcomes of patients with coronary artery disease and chronic nephropathy. Their precise role in the treatment and prevention of cardiovascular and renal disease should be established by several ongoing clinical trials.
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PMID:Expanded role for ARBs in cardiovascular and renal disease? Recent observations have far-reaching implications. 1131 62

Optimal management of pregnancies for patients with acquired heart disease requires exact knowledge of the hemodynamic influence of pregnancy-related cardiovascular adaptation processes on the heart disease. Maternal and fetal risks must be carefully considered and mutually weighed. Critical time periods, during which closely networked, interdisciplinary support for the patient is essential, are primarily during the 30th to 32nd week of pregnancy. This is the period in which maximum increases in heart rate, cardiac output, and plasma volume are observed. The peripartal phase represents another critical period. Owing to the mechanically related fixation of cardiac output, stenotic valvular diseases are generally tolerated much poorer than are valvular insufficiency defects. Therapeutic objectives are reduction in heart rate and--in cases of pulmonary-venous congestion--decrease in preload. Vaginal deliveries are possible with slight to moderate valvular stenosis; cesarean section is to be preferred in more severe cases. In patients with valvular insufficiency and normal left ventricular function pregnancy is usually well tolerated. Reduction in regurgitation is even often observed owing to pregnancy-induced decrease in peripheral vascular resistance. Since ACE inhibitors and AT1 antagonists are contraindicated during pregnancy, afterload reduction can be achieved by a combination of hydralazin and nitrates, or calcium antagonists. Peripartal cardiomyopathy is rare and is associated with a high degree of maternal mortality (25-50%). Apart from the necessary consideration of pregnancy-related contraindications, therapeutic principles do not differ from those for other forms of heart failure. Most patients exhibiting hypertrophic obstructive cardiomyopathy satisfactorily pass through their pregnancies. Individual cases have been described, however, of both pregnancy-related cardiac decompensation as well as sudden death. Aortal and coronary-arterial dissections represent rare, life-endangering complications for mother and fetus: these developments can occur among predisposed patients as a result of the hormonal and hemodynamic adaptation processes during pregnancy. Close interdisciplinary collaboration and tightly networked support for patients are the prerequisite for successful management of high-risk pregnancies involving maternal heart disease.
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PMID:[Pregnancy risks in acquired heart diseases]. 1137 39

Increases in renal sympathetic nerve activity (RSNA) regulate the functions of the nephron, the vasculature, and the renin-containing juxtaglomerular granular cells. As increased activity of the renin-angiotensin system can also influence nephron and vascular function, it is important to understand the interactions between RSNA and the renin-angiotensin system in the control of renal function. These interactions can be intrarenal, that is, the direct (via specific innervation) and indirect (via angiotensin II) contributions of increased RSNA to the regulation of renal function. The effects of increased RSNA on renal function are attenuated when the activity of the renin-angiotensin system is suppressed or antagonized with angiotensin-converting enzyme inhibitors or angiotensin II-type AT1 receptor antagonists. The effects of intrarenal administration of angiotensin II are attenuated following renal denervation. These interactions can also be extrarenal, that is, in the central nervous system, wherein RSNA and its arterial baroreflex control are modulated by changes in activity of the renin-angiotensin system. In addition to the circumventricular organs, the permeable blood-brain barrier of which permits interactions with circulating angiotensin II, there are interactions at sites behind the blood-brain barrier that depend on the influence of local angiotensin II. The responses to central administration of angiotensin II type AT1 receptor antagonists, into the ventricular system or microinjected into the rostral ventrolateral medulla, are modulated by changes in activity of the renin-angiotensin system produced by physiological changes in dietary sodium intake. Similar modulation is observed in pathophysiological models wherein activity of both the renin-angiotensin and sympathetic nervous systems is increased (e.g., congestive heart failure). Thus, both renal and extrarenal sites of interaction between the renin-angiotensin system and RSNA are involved in influencing the neural control of renal function.
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PMID:Peripheral and central interactions between the renin-angiotensin system and the renal sympathetic nerves in control of renal function. 1145 95


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