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:3.4.23.15 (renin)
35,795 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The actions of angiotensin II in the cardiovascular system are transmitted by two known and possibly some unknown angiotensin receptor types. AT1 and AT2 both correspond to G-protein-coupled receptors with seven hydrophobic transmembrane domains, several N-glycosylation sites and a potential G-protein binding site. Cloning of coding regions and promoter sequences contributed to the understanding of receptor protein function and regulation. Angiotensin receptors with atypical binding properties for the known AT1- and AT2-specific ligands are expressed on human cardiac fibroblasts and in the human ulcrus. In several animal models, receptors with high affinity for angiotensin (1-7) have been described. AT1 stimulation is mediated by the generation of phospholipid-derived second messengers, activation of protein kinase C, the MAPkinase pathway and of immediate early genes. Recently, phosphorylation and dephosphorylation of tyrosine kinases have been associated with AT1- and AT2-mediated signal transduction. ATR are regulated by phosphorylation, internalization, modification of transcription rate and mRNA stability. Regulation is highly cell and organ specific and includes upregulation of ATR in some pathophysiological situations where the renin angiotensin system is activated. Whereas the function of AT1 in the cardiovascular system is relatively well established, there is little information regarding the role of AT2. Recent hypotheses suggest an antagonism between AT1 and AT2 at the signal transduction and the functional level. Transgenic animal models, particularly with targeted disruption of the AT1 and AT2 genes, suggest the contribution of both genes to blood pressure regulation. Genetic polymorphisms have been described in the AT1 and AT2 gene or neighbored regions and are used to analyze the association between gene defects and cardiovascular diseases. AT1 antagonists are now being introduced into the treatment of hypertension and potentially heart failure, and more interesting pharmacological developments are expected from the ongoing basic studies.
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PMID:Molecular biology of angiotensin receptors and their role in human cardiovascular disease. 877 61

Cardiac hypertrophy is associated with altered expression of the components of the cardiac renin-angiotensin system (RAS). While in vitro data suggest that local mechanical stimuli serve as important regulatory modulators of cardiac RAS activity, no in vivo studies have so far corroborated these observations. The aims of this study were to (i) examine the respective influence of local, mechanical versus systemic, soluble factors on the modulation of cardiac RAS gene expression in vivo; (ii) measure gene expression of all known components of the RAS simultaneously; and (iii) establish sequence information and an assay system for the RAS of the dog, one of the most important model organisms in cardiovascular research. We therefore examined a canine model of right ventricular hypertrophy and failure (RVHF) in which the right ventricle (RV) is hemodynamically loaded, the left ventricle (LV) is hemodynamically unloaded, while both are exposed to the same circulating milieu of soluble factors. Using specific competitive PCR assays, we found that RVHF was associated with significant increases in RV mRNA levels of angiotensin converting enzyme and angiotensin II type 2 receptor, and with significant decreases of RV expression of chymase and the angiotensin II type 1 receptor, while RV angiotensinogen and renin remained unchanged. All components remained unchanged in the LV. We conclude that (i) dissociated regional regulation of RAS components in RV and LV indicates modulation by local, mechanical, not soluble, systemic stimuli; (ii) components of the cardiac RAS are independently and differentially regulated; and (iii) opposite changes in the expression of angiotensin converting enzyme and chymase, and of angiotensin II type I and angiotensin II type 2 receptors, may indicate different physiological roles of these RAS components in RVHF.
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PMID:Local stress, not systemic factors, regulate gene expression of the cardiac renin-angiotensin system in vivo: a comprehensive study of all its components in the dog. 885 4

Transgenic technologies and homologous recombination approaches have been useful for studying the roles of specific genes in systemic hypertension. Recently, we and others have introduced the use of in vivo gene transfer to study the effects of local gene overexpression or inactivation in hypertension. Using in vivo gene transfer for the blood vessel, we have documented the direct hypertrophic action of local angiotensin and the growth-inhibitory effect of nitric oxide. In vivo gene transfer is also an effective method for discovering the unknown functions of a newly cloned gene. Using this approach, we identified the in vivo growth-inhibitory action of the angiotensin II type 2 receptor. In addition, we have developed a novel strategy using transcriptional factor "decoy" oligonucleotides to regulate the interaction of cis- and trans-acting factors involved in the modulation of gene expression in vivo. Thus, the decoy approach can "switch" on or off specific genes in selective tissues in vivo, thereby influencing local gene expression and tissue function. For example, using decoy oligonucleotides, we have "turned on" renin gene expression in the rat liver, in which it is usually not expressed, resulting in increased hepatic and plasma renin levels. Thus, in vivo gene transfer technology provides us with a new tool for in vivo characterization of genes involved in hypertension that has potential application in human therapy.
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PMID:In vivo gene transfer and gene modulation in hypertension research. 895 11

To investigate the role of the renin-angiotensin system in the regulation of adrenal growth in deoxycorticosterone (DOC)-salt hypertensive rats, and the adrenal gene expression of angiotensin AT1 and AT2 receptors, three groups of uninephrectomized rats + DOC pellet + 0.9% NaCl were given water (DOC), losartan (DOC-L), or ramipril (DOC-R) by gavage. Controls had sham surgery and water gavage. Tail-cuff systolic and mean intra-arterial blood pressures were significantly higher in the three DOC groups than in controls and not different among the groups. Adrenal weight of DOC was slightly but not significantly greater than that of controls, while those of DOC-L and DOC-R were greater than that of controls (P < .01). Northern blots showed that AT1 and AT2 gene expression was significantly reduced in DOC (by 33% and 60%), while that of AT1 (but not AT2) was significantly reduced further (versus control and DOC) in DOC-L and DOC-R. There were negative correlations between adrenal weight and AT1 (r = -.80, P < .0001) or AT2 (r = -.60, P < .005). We conclude that DOC-salt hypertension downregulates adrenal AT1 and AT2 gene expression by different mechanisms. Removal of the effects of angiotensin by losartan or ramipril downregulates AT1 further and promotes adrenal growth, indicating the presence of an AT1-mediated growth-inhibitory action of angiotensin II on the adrenal gland. These observations constitute an additional example of a growth-inhibitory role for the AT1 receptor, opposite to its more common growth-promoting actions in other organs and tissues.
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PMID:Regulation of growth of the adrenal gland in DOC-salt hypertension. Role of angiotensin II receptor subtypes. 903 35

A genetic epidemiologic approach is useful to elucidate the genes responsible for hypertension. Genetic analyses of the components of the renin-angiotensin system have succeeded in showing an association between their polymorphism and hypertension. Recently, two types of angiotensin II receptor were cloned and characterized. To examine the genetic contribution of angiotensin II type 1 receptor (AT1) and type 2 receptor (AT2) genes in human essential hypertension, a case-control study was performed in Japanese subjects. The study comprised 321 subjects with hypertension who satisfied the criteria for essential hypertension, together with 215 age and sex matched controls. The significance of the differences in genotype distribution between hypertensive and normotensive subjects was examined by chi2 analysis. Neither AT1 nor AT2 gene variants were associated with human essential hypertension in the Japanese subjects. However, the AT1 receptor gene polymorphism was associated with left ventricular mass index in normotensive subjects. The study results suggest that gene polymorphisms of both angiotensin II receptors are not directly involved in the increase of genetic risk for hypertension, but that the AT1 receptor gene might contribute genetically to the increase of left ventricular mass.
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PMID:Angiotensin II type 1 receptor gene polymorphism is associated with increase of left ventricular mass but not with hypertension. 954 72

We examined the role of angiotensin in renal remodeling that is specifically channeled through the angiotensin type 2 receptor (AT2 receptor). Previously, we observed that in mouse embryonic kidneys the AT2 mRNA is predominantly expressed in the mesenchyme. We therefore chose a model of unilateral ureteral obstruction, characterized by activation of the renin-angiotensin system, while fibrosis develops prominently within the renal interstitium. Male wild-type mice (Agtr2 -/Y) and mice null mutant for the AT2 gene (Agtr2 -/Y) were subjected to a complete unilateral ureteral ligation for 5 or 14 days. Obstructed kidneys of Agtr2 -/Y mice showed more severe interstitial fibrosis than those of Agtr2 +/Y mice, confirmed by increased collagen by point-counting on Masson trichrome stained sections, and increased alpha 1(I) collagen mRNA expression by Northern blot. Immunohistochemistry staining for PCNA (a marker of cell proliferation), F4/80 (a marker of macrophages), vimentin (a marker of fibroblasts), and alpha SMA (a marker of myofibroblasts) revealed that, while the two groups were comparable in the degree of cell proliferation and macrophage infiltration, fibroblasts/ myofibroblasts were present in a greater abundance in obstructed kidneys of Agtr2 -/Y mice than in Agtr2 +/Y at both 5 and 14 days after obstruction. Moreover, cells undergoing apoptosis were significantly less in Agtr2 -/Y than in Agtr2 +/Y. Thus, the AT2 receptor significantly impacts the remodeling process within renal interstitium, potentially by regulating the population of collagen-producing cells.
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PMID:Accelerated fibrosis and collagen deposition develop in the renal interstitium of angiotensin type 2 receptor null mutant mice during ureteral obstruction. 955 1

The ovary is one of the organs in which an intrinsic renin-angiotensin system (RAS) has been described. Among angiotensin II receptors, the angiotensin II receptor subtype 2 (AT2) is believed to play an important role in mediating or modulating a variety of intraovarian processes. Previous studies were mainly based on ligand binding techniques using AT2 receptor-specific antagonists. Despite the recent cloning of the AT2 gene, no information is available about the exact intraovarian distribution of AT2 mRNA expression. Therefore, we analyzed ovaries from sexually mature, untreated rats by nonradioactive in situ hybridzation using an AT2-specific anti-sense RNA probe. Experiments were performed on perfusion-fixed ovaries obtained from different stages of the estrous cycle. As an important finding, strong AT2 mRNA expression could be demonstrated exclusively in follicular granulosa cells. Follicles containing AT2 mRNA-positve granulosa cells were mainly in the advanced tertiary stage of follicular development, already exhibiting features of atresia. In addition, individual collapsed, definitive atretic follicles also showed strong AT2 mRNA expression solely in granulosa cells. In corpora lutea and in other structures of the ovary, no message for the AT2 receptor could be detected under these conditions. These data may contribute to a better understanding of the effects exerted by an intraovarian RAS. (J Histochem Cytochem 46:865-870, 1998)
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PMID:Localization of the mRNA for the angiotensin II receptor subtype 2 (AT2) in follicular granulosa cells of the rat ovary by nonradioactive in situ hybridization. 967 37

This study examined expression of renin-angiotensin system (RAS) component mRNAs in angiotensinogen gene knockout (Atg-/-) mice. Wild-type (Atg+/+) and Atg-/- mice were fed a normal-salt (0.3% NaCl) or high-salt (4% NaCl) diet for 2 weeks. Angiotensinogen, renin, angiotensin-converting enzyme (ACE), angiotensin II type la receptor (AT1A), and angiotensin II type 2 receptor (AT2) mRNA levels were measured by Northern blot analysis. In Atg+/+ mice, activities of circulating RAS and renal angiotensinogen mRNA level were decreased by salt loading, whereas levels of renal and cardiac ACE; renal, brain, and cardiac AT1A; and brain and cardiac AT2 mRNA were increased by salt loading. Although activities of circulating RAS were not detected in Atg-/- mice, salt loading increased blood pressure in Atg-/- mice. In Atg-/- mice, renal renin mRNA level was decreased by salt loading; in contrast, salt loading increased renal AT1A and cardiac AT2 mRNA levels in Atg-/- mice, and these activated levels in Atg-/- mice were higher than those in Atg+/+ mice fed the high-salt diet. Thus, expression of each component of the RAS is regulated in a tissue-specific manner that is distinct from other components of systemic and local RAS and that appears to be mediated by a mechanism other than changes in the circulating or tissue levels of angiotensin peptides.
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PMID:Effect of genetic deficiency of angiotensinogen on the renin-angiotensin system. 971 46

When perfusion pressure to the kidney falls, e.g., as a result of dehydration or mechanical hindrance to the renal arterial blood flow, the release of renin, hence angiotensin (Ang), surges. This feedback regulation is geared to preservation of renal hemodynamic environment by raising systemic blood pressure. We are aware that a surge of renin-angiotensin release also occurs when there is a mechanical hindrance to urine outflow. This phenomenon of ureteral pressure-sensitive activation of renin-angiotensin has been heretofore viewed as an error of nature. We have obtained evidence which challenges this traditional view when we examined strains of mutant mice which are completely devoid of either angiotensin type 1 (AT1) receptor gene (Agtr1-) or angiotensin type 2 (AT2) receptor gene (Agtr2-) as a result of genetic manipulation of these animals. These strains of mice display varying degrees of urinary tract obstruction. In Agtr2- mice obstructions develop during early kidney ontogenesis in ureto, and, in Agtr1- mice, during late ontogenesis ex utero. One may recall that, throughout its normal ontogenesis, the kidney is twice at risk for obstruction of urine outflow. Thus, in utero the ureter is transiently obliterated. This transient obliteration is believed to protect the kidney from the high pressure from the cloaca when urine is not yet formed. During this period, the ureter is surrounded by dense layers of undifferentiated mesenchymal cells. Subsequent expansive growth that the ureter must achieve, therefore, in concert with a timely disappearance of the surrounding mesenchymal cells. The study in Agtr2- embryos indicated that Ang, through the Agtr2 receptor, promotes disappearance of these mesenchymal cells, and that inactivation of this receptor results in congenital obstructive nephropathy. Our additional studies in human specimens indeed indicate that many infants with congenital anomalies of the kidney and urinary tract have a significant mutation within the AT2 gene. Once animals are born, the kidney comes to be of primary importance for preservation of body fluid homeostasis, and urinary output increases dramatically. The large volume of urine predisposes the kidney to obstructive nephropathy due to the high resistance offered to the urine by the downstream ureter. Normally, a special device develops within the urinary tract in a timely fashion, which enables the kidney to collect a bulk of urine, and then to expel it downward periodically without imposing positive pressure upon the renal parenchyma. This special device is the renal pelvis. In the studies on Agtr1 null mutant mice, we learned that Ang, through the AT1 receptor, promotes development of the pelvis shortly after birth, so that inactivation of this receptor in Agtr1- mice leads to absence of development of the pelvis, hence to obstructive nephropathy. Collectively, Agtr1 or Agtr2 null mutant mice suffer from urinary tract obstruction. Given that urinary tract obstruction per se is a potent stimulus for Ang generation, Ang is essential for the kidney to escape from obstructive injury.
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PMID:Role of angiotensin in the development of the kidney and urinary tract. 985 80

All components of the renin-angiotensin system (RAS) are highly expressed in the developing kidney in a pattern that suggests a role for angiotensin II in renal development In support of this notion, pharmacological interruption of angiotensin II type-1 (AT1) receptor-mediated effects in animals with an ongoing nephrogenesis produces specific renal abnormalities characterized by papillary atrophy, abnormal wall thickening of intrarenal arterioles, tubular atrophy associated with expansion of the interstitium, and a marked impairment in urinary concentrating ability. Similar changes in renal morphology and function also develop in mice with targeted inactivation of the genes that encode angiotensinogen, angiotensin converting enzyme, or both AT1 receptor isoforms simultaneously. Taken together, these results clearly indicate that an intact signalling through AT1 receptors is a prerequisite for normal renal development In a recent study, an increased incidence of congenital anomalies of the kidney and urinary tract was detected in mice deficient in the angiotensin II type-2 receptor, suggesting that this receptor subtype is also involved in the development of the genitourinary tract The present report mainly reviews the renal abnormalities that have been induced by blocking the RAS pharmacologically or by gene targeting in experimental animal models. In addition, pathogenetic mechanisms and clinical implications are discussed.
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PMID:An intact renin-angiotensin system is a prerequisite for normal renal development. 1069 79


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