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:C0004135 (ATM)
13,001 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Within the kidney angiotensin II (Ang II) exerts potent effects on renal function. The intrarenal actions of Ang II include modulation of renal blood flow, glomerular filtration rate, tubular epithelial transport, renin release and cellular growth. The actions of Ang II on the kidney are mediated by specific intrarenal receptors which, based upon physical characteristics and the selective binding of non-peptide and peptide analogs may be divided into two main subtypes, termed AT1 and AT2. AT1 receptors are present within the kidneys of all species and are located predominantly in the glomerulus, the renal tubules and the renal vasculature, including the afferent and efferent arterioles. Modulation of AT1 receptors within the kidney has been shown to mediate essentially all of the known intrarenal effects of Ang II. AT1 receptors and particularly AT2 receptors are expressed in large numbers in fetal kidney where they may play a role in development and maturation. In some species, intrarenal AT2 receptors disappear shortly after birth. In those species where AT2 receptors are present in the adult kidney their role in the control of renal function has not yet been clearly defined.
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PMID:Pharmacology of angiotensin II receptors in the kidney. 769 86

This study was done to investigate the mechanisms that underly the changes of renal renin gene expression upon hypoperfusion of one kidney. To this end the left renal arteries of male Sprague-Dawley rats were clipped with 0.2 mm silver clips and renal renin mRNA levels were assayed by RNase protection during the first ten days after clipping. Unilateral reduction of renal blood flow led to transient maximal fivefold increases of renin mRNA levels in the clipped kidneys and to sustained suppression of renin gene expression to 20% of the control value in the contralateral intact kidneys. Inhibition of prostaglandin (PG) formation by meclofenamate or EDRF synthesis by L-NAME markedly attenuated the increase of renin mRNA levels in response to clipping, and a combination of PG/EDRF inhibition almost abolished the increase of renin mRNA levels. Inhibition of PG/EDRF formation did not change the suppression of renin mRNA levels in the contralateral intact kidneys. Neither did renal denervation nor inhibition of macula densa function by furosemide prevent the suppression of renin gene expression in response to unilateral renal artery clipping. Only converting enzyme inhibition by ramipril and blockade of Ang II-AT1 receptors by losartan attenuated the decrease of renin mRNA levels in the contralaterals to clipped kidneys. These findings suggest that intact PG and EDRF synthesis represent stimulatory signals for renin gene expression that are required for the elevation of renin mRNA levels upon unilateral renal hypoperfusion.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Control of renin gene expression in 2 kidney-1 clip rats. 770

There are several ways of experimentally studying the influence of candidate genes on hypertension. The approach proposed here is antisense inhibition with antisense oligodeoxynucleotides (AS-ODNs) constructed to the 5' region of known sequences of angiotensinogen mRNA and angiotensin II type-1 receptor mRNA. The AS-ODNs were applied in vivo and in vitro. In vivo, direct injection of 50 micrograms of AS-ODN into the lateral ventricles of SHR reduced hypertension significantly (P < 0.01). There was no effect of AS-ODN i.c.v. in normotensive WKY rats. The phosphorothiated AS-ODN to the AT1 receptor mRNA also produced a long-lasting decrease in blood pressure in SHR (7 days). After AS-ODN treatment AT1 receptors were reduced in the PVN and anterior third ventricle area and Ang II levels were reduced in the brainstem. The results show the in vivo feasibility of using antisense inhibition of renin-angiotensin mRNA to reduce hypertension.
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PMID:Antisense inhibition of hypertension: a new strategy for renin-angiotensin candidate genes. 770 4

The purpose of recent studies was to investigate the expression of angiotensin II (Ang II) receptor sites in afferent arterioles freshly isolated from the rat kidney, and the role of Ang II on renin release by these vessels. The method of isolation and purification of renal microvessels was based on iron oxide infusion into the kidneys and separation of the afferent arterioles from glomeruli and connective tissue with the aid of a magnetic field, successive passages through various sieves, and harvesting with collagenase. Ang II receptor characteristics were evaluated by radioligand binding studies using the non-peptide Ang II antagonists of AT1 (Dup-753 and -532) and AT2 (PD-123319 and CGP-42112) receptors. AT1 antagonists displaced up to 80% of the Ang II binding with high affinity (3 nM), whereas the remaining 20% showed low affinity for the Dup compounds and CGP-42112 (> 10 microM), and intermediate affinity for PD-123319 (12 microM). These data suggest the existence of two Ang II receptor subtypes in the renal vasculature of the rat. In separate experiments, renin release by isolated afferent arterioles in vitro was 9 ng/hr/mg under control conditions. Ang II (0.1 microM) inhibited renin secretion by 20%, whereas the adenylyl cyclase activator forskolin (10 microM) stimulated renin secretion by 50%. In arterioles isolated from rats chronically treated with a converting enzyme inhibitor (perindoprilate) to reduce endogenous formation of Ang II, renin release increased 20-fold under control conditions in vitro and was further stimulated by forskolin.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Angiotensin II receptors and renin release in rat glomerular afferent arterioles. 770 9

All the components of the renin-angiotensin system have been identified in the heart including the angiotensin II receptor subtypes AT1 and AT2. In the normal human heart, there is a decreasing receptor density from the right atrium to the left ventricle. In right atrial membranes prepared from pathological hearts, the percentage of AT1 receptor decreases with the severity of cardiac dysfunction whereas that of AT2 receptor increases. Treatment of hypertrophic rats with AT1 receptor antagonists inhibits cardiac hypertrophy and reverses the increase receptor density, indicating involvement of this Ang II receptor subtype. The role of the AT2 receptor is still largely unknown but it may be involved in cell growth and proliferation. The cloning of both AT1 and AT2 receptors as well as the availability of potent and selective antagonists will help us to understand better the functional role of Angiotensin II in cardiovascular disorders.
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PMID:Angiotensin II receptor subtypes and cardiac function. 771 22

A complete renin-angiotensin system has been shown to be present in human placenta, but its physiological role is poorly known. To investigate the implication of this system in the regulation of steroid hormone secretion, we studied the effect of angiotensin-II on the release of estradiol and progesterone from human placental explants. Our experiments showed that angiotensin-II stimulated estradiol secretion from term placental explants in a dose- and time-dependent fashion, although progesterone release was unaffected. Estradiol release induced by angiotensin-II (0.2 mumol/L) was blocked by angiotensin AT1 receptor antagonist losartan in a dose-dependent manner, suggesting the involvement of the AT1 receptor subtype in the process. On the contrary, the angiotensin AT2 receptor antagonist PD123319 (1 mumol/L) or the angiotensin AT2 receptor agonist CGP42112A (1 mumol/L) had no effect. Analysis of the amount of steroid hormones in the placental tissues incubated for 12 h showed that angiotensin-II increased estradiol production by 34% compared with the unstimulated explants, whereas the total levels of the estrogen precursor androstenedione and testosterone were decreased by 30-45% in the presence of the peptide, suggesting a stimulatory effect on the aromatization step. This hypothesis was reinforced by the absence of effect of angiotensin-II on both estradiol and testosterone concentrations in the placental explants pretreated with the aromatase inhibitor 4-hydroxyandrostenedione (25 mumol/L). Progesterone synthesis was not affected by angiotensin-II. The present study indicates that angiotensin-II induces the secretion of estradiol from human placenta through the angiotensin AT1 receptor subtype activation, and this effect seems to be linked to the stimulation of local androgen aromatization.
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PMID:Angiotensin-II stimulates estradiol secretion from human placental explants through AT1 receptor activation. 771 93

The aim of the present study was to correlate the development of the renin angiotensin system (RAS) in the kidney of the rat with the development of genetic hypertension. Immature (1-week-old) and adult (12-week-old) normotensive Wistar-Kyoto (WKY) and spontaneously hypertensive kidney rats (SHR) were used for quantification of angiotensin II (ANG II) receptors and angiotensin converting enzyme (ACE) binding sites using quantitative autoradiography. In both neonatal and adult animals of either strain, ANG II receptors were of AT1 subtype. In all kidney areas of 1-week-old rats. ANG II receptor density was higher in SHR than WKY. Binding density increased with age in WKY rats; thus, in the glomeruli and the outer stripe of the outer medulla of 12-week-old WKY, binding was significantly higher than that present in age-matched SHR. [125I]351A binding to ACE was highest in the outer medulla and not detectable in glomeruli. In 1-week-old rats, binding to ACE was higher in WKY than in SHR strain. No differences in ACE binding were found between adult SHR and WKY rats, with the exception of the inner stripe of the outer medulla, where no binding was detected in SHR. Our results support the hypothesis that the RAS in kidney is developmentally regulated and is involved in the development and maintenance of genetic hypertension in SHR.
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PMID:Kidney angiotensin II receptors and converting enzyme in neonatal and adult Wistar-Kyoto and spontaneously hypertensive rats. 771 70

The renin-angiotensin system plays a critical role in sodium and fluid homeostasis. Genetic or acquired alterations in the expression of components of this system are strongly implicated in the pathogenesis of hypertension. To specifically examine the physiological and genetic functions of the type 1A receptor for angiotensin II, we have disrupted the mouse gene encoding this receptor in embryonic stem cells by gene targeting. Agtr1A(-/-) mice were born in expected numbers, and the histomorphology of their kidneys, heart, and vasculature was normal. AT1 receptor-specific angiotensin II binding was not detected in the kidneys of homozygous Agtr1A(-/-) mutant animals, and Agtr1A(+/-) heterozygotes exhibited a reduction in renal AT1 receptor-specific binding to approximately 50% of wild-type [Agtr1A(+/+)] levels. Pressor responses to infused angiotensin II were virtually absent in Agtr1A(-/-) mice and were qualitatively altered in Agtr1A(+/-) heterozygotes. Compared with wild-type controls, systolic blood pressure measured by tail cuff sphygmomanometer was reduced by 12 mmHg (1 mmHg = 133 Pa) in Agtr1A(+/-) mice and by 24 mmHg in Agtr1A(-/-) mice. Similar differences in blood pressure between the groups were seen when intraarterial pressures were measured by carotid cannulation. These studies demonstrate that type 1A angiotensin II receptor function is required for vascular and hemodynamic responses to angiotensin II and that altered expression of the Agtr1A gene has marked effects on blood pressures.
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PMID:Regulation of blood pressure by the type 1A angiotensin II receptor gene. 772 93

Cardiac myocytes (AT-1 cells) derived from heart tumors of mice transgenic for an atrial natriuretic factor promoter, SV40 large T-antigen DNA transgene, demonstrate properties consistent with normal cardiac myocytes but retain the capacity to proliferate in culture. We studied the renin-angiotensin system (RAS) and related growth regulation of these cells because AT-1 cells (or transgenically similar cells) may be useful to repair injured myocardium. This study reveals two separate and distinct findings: 1) AT-1 cells proliferate or hypertrophy in response to angiotensin II (ANG II), depending on their competence to proceed through the cell cycle; and 2) AT-1 cells possess components of a RAS, and angiotensinogen antisense experiments suggest that the RAS is functional in these cells. Specifically, AT-1 cells proliferate in response to ANG II in low-serum medium but hypertrophy in response to ANG II when first treated with mitomycin C (at a concentration that inhibits DNA replication but is not cytotoxic). The ANG II-mediated proliferative and hypertrophic responses are inhibited by DuP 753. In addition, there is a significant increase in the protein-to-DNA ratio of cells, which are proliferation-inhibited in the absence of ANG II treatment (20%, P < 0.05). DuP 753 also inhibits this hypertrophy, suggesting that these cells possess a functional RAS. AT-1 cells contain mRNAs for angiotensin-converting enzyme, renin, angiotensinogen, and the AT1 receptor as determined by sequence analysis of polymerase chain reaction amplification products. Antisense oligonucleotides complementary to the angiotensinogen mRNA specifically inhibit angiotensinogen mRNA accumulation and proliferation of AT-1 cells. In summary, these cells contain a growth-regulating RAS, suggesting that such a system may play a significant role in left ventricular hypertrophy.
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PMID:Identification and antisense inhibition of a renin-angiotensin system in transgenic cardiomyocytes. 773 48

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


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