UMLS:C0020538 - FACTA Search

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Query: UMLS:C0020538 (hypertension)
170,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Recent developments in angiotensin II receptor research are discussed in the context of our knowledge in preceding years. Cloning of non-mammalian angiotensin II receptors without high affinity for non-peptide antagonists has permitted a new approach to the delineation of ligand-binding domains. Cloning of the second major isoform of angiotensin II receptor, AT2, and identification as a seven transmembrane domain receptor with only 32% sequence homology with the first isoform, AT1, provide the first concrete step toward our understanding of the roles of AT2. The discovery of phospholipase C-mediated pathway for AT1 in vascular smooth muscle cell signaling introduces an entirely unexpected angle to future research. New aspects of AT1 gene regulation and receptor desensitization and internalization are evolving. Molecular mechanisms and physiological implications of the differential expression of AT1A and AT1B are being clarified. The recent discovery of human AT1B may make studies on animal models interesting and more meaningful. The first paper on the genetic role of the AT1 gene in human hypertension has just been published. A promising future is expected in the further development of angiotensin-receptor research in relation to cardiac, renal, and vascular function by employing techniques of molecular biology.
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PMID:Recent progress in molecular and cell biological studies of angiotensin receptors. 774 57

Angiotensin II (Ang II) is an essential component of the renin-angiotensin system and is partially responsible for the maintenance of hypertension. Two major receptor subtypes have been defined for Ang II and have been detected in the heart of various species. Most of the known functions of Ang II are mediated via the AT1 subtype, whereas the function of the AT2 receptor remains ill defined. In this study we aimed to localize both receptor subtypes in the rabbit heart using film and light microscope autoradiography as well as radioligand binding assays on membranes. Total receptor densities in the atrium and nervous tissue were respectively four and nine times greater than in the ventricle. Conductive tissue shows a density between that of atrial and nervous tissue. In the ventricle, approximately 20% of the Ang II receptors were AT2. This receptor subtype was almost totally absent from nervous, conductive and atrial tissue. The limited resolution of the microscope autoradiography method did not allow us to specify the exact cell-type at this stage.
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PMID:Localization of angiotensin II receptor subtypes in the rabbit heart. 776 Mar 66

1. Angiotensin II (AII) plays a major role in cardiovascular function via direct actions on the vasculature, kidney, adrenal, heart, brain and sympathetic nerves. The cellular effects of AII are extensive and encompass hypertrophy, hyperplasia and the deposition of extracellular matrix. 2. The actions of AII are mediated by the AT1 and AT2 membrane receptor subtypes, and additional forms of each subtype. Evidence is emerging that selective changes in AII receptor subtypes occur in cardiovascular diseases. 3. Thyroid dysfunction increased cardiac, liver and kidney AII receptor density but decreased adrenal gland receptor density. In the heart, there was a selective increase in AT2 receptor density. 4. Diabetes increased cardiac, liver and adrenal gland AII receptor densities but decreased kidney receptor density. 5. Hypertension increased AII receptor density in the heart and kidney. A corresponding increase in receptor mRNA was prevented by selective AT1 receptor antagonists. 6. The human heart contained AII receptors in all chambers; right atrial receptor density was increased in coronary artery bypass graft patients. 7. The presence of AII receptor changes in these models of cardiac hypertrophy and hypertension raises the possibility of using orally active, subtype-selective agonists and antagonists to treat particular forms of cardiovascular diseases.
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PMID:Angiotensin receptors in cardiovascular diseases. 786 32

There is increasing evidence that an activated intrarenal renin-angiotensin system (RAS) alters renal hemodynamics and fluid balance and that such events may lead to the development of hypertension. To examine the role of the glomerular RAS in the development of hypertension in the spontaneously hypertensive (SHR) rat, we studied angiotensin (ANG) II receptors in isolated glomeruli from young (4- to 5-wk-old) and adult (10- to 12-wk-old) SHR and from age-matched, normotensive Wistar-Kyoto (WKY) rats. Glomerular ANG II receptor density in young SHR is 3-fold higher than in age-matched WKY rats (2033 +/- 154 versus 742 +/- 151 receptors/microns2; p < 0.05) and 1.5-fold higher than in adult SHR and WKY rats (1128 +/- 85 and 1198 +/- 181 receptors/microns2, respectively; p < 0.05). Additional studies demonstrated that the differences in receptor density are not related to disparity in receptor occupancy and that they are also independent of systemic ANG levels. Suppression of RAS by ANG converting enzyme inhibitors resulted in a 3-fold increase in receptor density in young SHR rats and a 4.5-fold increase in young WKY rats; receptor density remained greater in young SHR rats (5915 +/- 318 versus 3358 +/- 234 receptors/microns2, p < 0.05). Furthermore, competitive binding experiments using the nonpeptide ANG II antagonists losartan (AT1) and PD 123319 (AT2) indicate that the greater ANG II receptor density in the young SHR rats represents an increase in the number of a single population of AT1 receptors.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Glomerular losartan (DuP 753)-sensitive angiotensin II receptor density is increased in young spontaneously hypertensive rats. 793 16

New approaches to renin-angiotensin blockade: The successful use of angiotensin converting enzyme (ACE) inhibitors in the treatment of hypertension and congestive heart failure has generated a great deal of research interest in developing new pharmacological approaches to block the renin-angiotensin system. In recent years, several new non-peptide angiotensin II antagonists have been synthesized and some of them are available for experimental and/or clinical investigations. Now that experience with the antagonist losartan is accumulating, it is important to compare the effects, the efficacy and the side effects of this agent with those of ACE inhibitors. Effects of losartan compared with ACE inhibitors: So far, ACE inhibitors and the angiotensin II antagonist losartan appear to have similar systemic and regional hemodynamic effects. The impact of ACE inhibition and angiotensin blockade on the various components of the renin-angiotensin system is also comparable except for a marked increase in plasma angiotensin II levels during angiotensin II blockade. This increase in circulating angiotensin II might theoretically lead to an excessive stimulation of the AT2 receptor subtype, but since the function of this receptor is not known it is impossible to evaluate the implications of this reactive rise. Renal effects of losartan: The renal effects of angiotensin II antagonists are also very similar to those of ACE inhibitors. However, a marked increase in uric acid excretion has been observed with the administration of losartan. This uricosuric effect of losartan might represent a clinical advantage unless a state of urinary supersaturation of undissociated uric acid is achieved.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The advantages of angiotensin II antagonism. 796 67

A-II exerts its activity on various target tissues by binding to its receptors. The discovery of local RASs and A-II receptors within various tissues has generated interest in the clinical usefulness of RAS inhibition by directly blocking the action of A-II at the receptor level. Different A-II receptor subtypes have been identified and subsequently termed AT1 and AT2. AT1-receptor subtypes are the predominant receptor subtypes existing in most organs and, by coupling to a transmembrane G protein, seem to be the main subtypes participating in the vasoactive responses of A-II. Saralasin, a peptide with specific A-II receptor-antagonistic activity, had limited practical long-term usefulness as a result of its short half-life, significant agonistic properties, and lack of oral bioavailability. The discovery of simple benzyl-substituted imidazoles, which possess weak but highly selective A-II receptor antagonistic properties, led to the development of losartan (DuP 753). Losartan is a potent, orally active, specific, competitive nonpeptide A-II receptor antagonist that appears to be an effective antihypertensive agent both in animal studies and in preliminary clinical trials. The therapeutic usefulness of losartan, however, is not limited to its antihypertensive effects. The potential benefits of A-II receptor antagonists include roles in postmyocardial infarction therapy, slowing A-II-induced cardiac hypertrophy, 154, 155 slowing the progression of heart failure, preventing postangioplasty restenosis, and in slowing the progression of renal disease. Furthermore, losartan, a selective A-II type 1 (AT1) receptor antagonist, has also been a valuable pharmacologic probe for studying the mechanism of A-II stimulation of its receptors. A-II receptor antagonism appears to be as effective as ACE inhibition in the treatment of hypertension and other pathologic processes that involve the RAS and may offer an alternative to those patients who cannot tolerate ACE inhibitors because of their side effects.
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PMID:Angiotensin II receptor antagonists: a new approach to blockade of the renin-angiotensin system. 817 70

Cardiac hypertrophy is largely due to cardiac fibroblast growth and increased synthesis of extracellular matrix. This study has investigated the contribution of the vasoactive hormone, angiotensin II, toward this hypertrophic process. We have demonstrated that cultures of adult rat cardiac fibroblasts express AT1 but not AT2 receptors for angiotensin II. The ability of angiotensin II to stimulate phosphoinositide catabolism and to elevate intracellular calcium concentrations in these cells was blocked by losartan, a specific AT1 receptor antagonist, but not by the AT2 receptor antagonist CGP 42112. Exposure of adult cardiac fibroblasts to angiotensin II resulted in the induction of several growth-related metabolic events including c-fos protooncogene expression and increased synthesis of DNA, RNA, and protein. Angiotensin II was also found to induce collagen type I, alpha 1 chain transcript expression in cardiac fibroblasts as well as the synthesis and secretion of collagen by these cells. The data demonstrate that angiotensin II, via AT1 receptors, can stimulate cardiac fibroblast growth and increase collagen synthesis in cardiac tissue. Thus, angiotensin II may contribute toward the development of cardiac hypertrophy in conditions of hypertension that are associated with elevated concentrations of angiotensin II.
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PMID:Characterization of angiotensin II receptors in cultured adult rat cardiac fibroblasts. Coupling to signaling systems and gene expression. 820 Sep 70

We tested the hypothesis that in utero treatment with the angiotensin-converting enzyme inhibitor captopril could change the affinity, density, and/or subtypes of angiotensin II (Ang II) receptors in the kidneys of spontaneously hypertensive rats (SHR). Newborn, 7-day-old, and 4-month-old SHR and Wistar-Kyoto (WKY) rats were used. SHR and WKY rat breeders were treated with captopril (0.4 mg/mL, 100 mg/kg per day) in drinking water, and their pups were maintained on captopril treatment until experimentation. Control groups were untreated, age-matched SHR and WKY rats. The density, affinity, and subtypes of renal Ang II receptors were determined using radioligand binding techniques and receptor antagonists specific for Ang II receptor subtypes 1 and 2 (losartan, an AT1-specific antagonist, and CGP 42112B, an AT2-specific antagonist). AT1 receptor density in kidneys was higher than AT2 receptor density in both neonatal and adult rats. AT1 receptor density in kidneys increased approximately twofold from birth to 7 days of age in all groups. Newborn and 7-day-old SHR showed significantly greater Ang II receptor densities in kidneys than other rat groups because of significantly greater densities of both AT1 and AT2 receptors. At 4 months of age, there were no significant differences in Ang II receptor densities in kidneys between captopril-treated and control SHR. Our data indicate that the expression of AT1 and AT2 receptors in kidneys is differentially regulated during development. Enhanced activity of the renal renin-Ang II system in newborn and probably fetal SHR may be involved in the pathogenesis of hypertension.(ABSTRACT TRUNCATED AT 250 WORDS)
Hypertension 1994 Jun
PMID:Changes in renal angiotensin II receptors in spontaneously hypertensive rats by early treatment with the angiotensin-converting enzyme inhibitor captopril. 820 10

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

Through the multiple actions of angiotensin II (AII), the renin-angiotensin system (RAS) participates in cardiovascular homeostasis. Angiotensin II acts by binding to specific membrane-bound receptors, which are coupled to one of several signal transduction pathways. These AII receptors exhibit heterogeneity, represented by AT1 and AT2 receptor subtypes. The AT1 receptor mediates the major cardiovascular action of the RAS. This receptor has been cloned from multiple species, disclosing features consistent with a transmembrane, G-protein-linked receptor. Further AII receptor heterogeneity is evident by the cloning of isotypes of the AT1 receptor. Blocking the interaction of AII with its receptor is the most direct site to inhibit the actions of the RAS. Many AII receptor antagonists, including peptide analogs of AII and antibodies directed against AII, possess unfavorable properties that have limited their clinical utility. The discovery and further development of imidazole compounds with AII antagonist properties and favorable characteristics, however, has promise for clinical utility. The leader in this field is a selective AT1 receptor antagonist losartan (previously known as DuP 753 or MK-954). Losartan was demonstrated to be an effective antagonist of many AII-induced actions and an effective antihypertensive agent in many animal models of hypertension (HTN). Losartan also demonstrated secondary benefits in preventing stroke, treating congestive heart failure (CHF), and delaying the progression of renal disease in animal models. Clinical studies confirm the AII antagonist action of losartan and suggest that losartan will be effective in the treatment of essential HTN. AII antagonism is likely to provide useful treatment in essential HTN and CHF, conditions in which the RAS is known to play a major role. The utility of AII antagonism may extend beyond that of HTN and CHF, as suggested by the potential usefulness of angiotensin-converting enzyme (ACE) inhibition in the treatment or prevention of many other diseases. The key advantage AII antagonists provide over ACE inhibitors is that they may avoid unwanted side effects, related to bradykinin potentiation with the latter drugs. The AII antagonists will help determine the role of the RAS in physiologic regulation and in the pathophysiology of various disease states.
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PMID:Angiotensin II receptor blockade: an innovative approach to cardiovascular pharmacotherapy. 830 Aug 85

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