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)

1. From studies in chronically catheterized fetal sheep and other species, it can be shown that the renin-angiotensin system (RAS) is active during intra-uterine life. Levels of angiotensin II (AII) in fetal sheep are similar to maternal. 2. The fetal RAS plays a role in maintenance of arterial pressure. The extent to which it does so depends on the level of activity of the system. 3. The distribution of renin within the fetal rat kidney is much more widespread than in the adult. The fetal kidney, like other vascular beds has high levels of the AT2 angiotensin receptor subtype. With maturation the proportion of the AT1 receptor subtype increases. 4. Blockade of the fetal RAS with angiotensin converting enzyme (ACE) inhibitors or with the non-peptide AII antagonist (losartan) caused a fall in fetal glomerular filtration rate (GFR) and a rise in renal blood flow (RBF). AII reverses the fall in GFR even though RBF decreases. 5. The fraction of the filtered sodium load reabsorbed by the proximal tubule was not affected when the fetal RAS was blocked by captopril or losartan. High doses of infused AII had no effect on renal reabsorption of sodium, in the short term, but in the long term depressed fractional proximal reabsorption. 6. Only in high doses does AII stimulate the secretion of aldosterone from the fetal adrenal.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Functions of the renin-angiotensin system during development. 758 4

The concept of classical endocrine control of ovarian function has now been extended to a more complex regulator system, including paracrine and autocrine modulating mechanisms. Among many factors, locally produced intraovarian insulin-like growth factors (IGFs) and the binding proteins (IGFBPs) and renin-angiotensin system (RAS) have been shown to play an important role in the control of folliculogenesis and ovulation. Growth hormone (GH) amplified gonadotropin actions in the process of follicular development and ovulation, at least in part, stimulating ovarian IGF-I production. IGF-I as well as IGFBPs were produced by ovarian granulosa cells. IGF-I acted synergistically with gonadotropins in the stimulation of a variety of granulosa cell functions, including estradiol (E2) and progesterone production and plasminogen activator (PA) activity. Furthermore, rabbit ovarian cells and rat granulosa cells possessed specific IGF type I receptors. The biological effects of IGF-I, including intrafollicular PA activities and ovarian steroidogenesis, were modulated by a family of IGFBPs in a complex manner. In the ovary IGFBP-3 appeared to neutralize the actions of gonadotropin and IGF-I, probably via its ability to sequester IGF-I, in the process of follicular growth, oocyte maturation, and ovulation. A functional local RAS is also known to exist in the ovary. Angiotensin II (Ang II) at 2-h intervals induced oocyte maturation, ovulation, and the production of E2 and prostaglandins (PGs) in the in vitro perfused rabbit ovaries in the absence of gonadotropin. In addition, the intrafollicular Ang II content and renin-like activity were enhanced during the ovulatory process by exposure to hCG, and the concomitant addition of saralasin inhibited hCG-induced ovulation in a dose-dependent manner. Captopril, an inhibitor of angiotensin converting enzyme, significantly inhibited the resumption of meiosis in the ovulated ova and follicular oocytes stimulated by hCG. Autoradiographic study revealed that AT2 receptors were predominantly located in granulosa cells, whereas AT1 receptors were more concentrated in the stroma and the thecal layers. Ang II-stimulated production of E2 and PGs and ovulation were significantly blocked by PD123319, a selective nonpeptide antagonist for AT2 receptors. The increase in ovarian IGF-I synthesis by exposure to hCG or GH induced the stimulation of intrafollicular PA activities. IGFBP-3 blocked the stimulatory effects of gonadotropin in the ovulatory process by neutralizing endogenously produced IGF-I, resulting in reduced intrafollicular PA activities. The increase in intrafollicular PA activities significantly stimulated the generation of Ang II in the preovulatory follicles by an activation of prorenin to renin and/or by the direct cleavage of angiotensinogen.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:[Regulatory system and physiological significance of local factors in the ovary during follicular development and maturation]. 759 85

Angiotensin II (Ang II) is the primary mediator of the renin-angiotensin system (RAS). Inappropriate control of the RAS is critically involved in the development and maintenance of hypertension and congestive heart failure. The actions of Ang II are thought to be mediated by specific surface receptors on the various target organs. At present, two receptors for Ang II have been firmly established in mammals, including man. According to current nomenclature, losartan represents the prototype antagonist of the Ang II type 1 (AT1) receptor and does not possess significant affinity for the so-called AT2 receptor. Losartan is the first of a new class of orally active, nonpeptide Ang II receptor antagonists able to very specifically and selectively inhibit the RAS while lacking the agonistic effects of the peptide receptor antagonists, e.g. sarlasin, or the bradykinin potentiating effects of the angiotensin converting enzyme (ACE) inhibitors. Virtually all of the known actions of Ang II, e.g. those defined by Ang II itself, saralasin, ACE or renin-inhibitors are blocked by losartan, emphasizing the major role of this distinct Ang II receptor subtype in mediating the responses of Ang II. The functional correlate of the AT2 receptor remains poorly understood. In several models of experimental and genetic hypertension, AT1 receptor antagonists are effective antihypertensive agents with similar efficacy to that of ACE and renin-inhibitors. In animal models of renal disease, AT1 receptor antagonists significantly decrease proteinuria, protect against diabetic glomerulopathy and increase survival in stroke-prone spontaneously hypertensive rats.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:A new class of therapeutic agents: the angiotensin II receptor antagonists. 763 3

The renin-angiotensin system is critical for regulating extracellular fluid volume and blood pressure. Angiotensin II, the active peptide hormone produced by the renin enzymatic cascade, sustains vascular volume and blood pressure by constricting vessels, stimulating adrenal aldosterone secretion, increasing renal tubular sodium absorption, activating the sympathetic nervous system, and increasing cardiac contractility. These actions are a disability in the pathophysiologic states of hypertension and congestive heart failure (CHF), however, since reactive increases in renal renin and angiotensin II stimulate sympathetic activity and renal sodium retention, leading consequently to circulatory volume over-load. The actions of angiotensin II are mediated by its interactions with specific cell-surface angiotensin II receptors, namely, AT1 and AT2; most cardiovascular actions of angiotensin II come from its interaction with the AT1 receptor. Angiotensin-converting enzyme (ACE) inhibitors and angiotensin-II-receptor blockers antagonize the actions of the renin-angiotensin axis, neutralizing its effects on hypertension and heart failure. Losartan is the first oral, nonpeptide, selective AT1-receptor blocker to be approved. Clinical trials show it to be effective and well tolerated as therapy for hypertension and CHF. Data obtained thus far suggest ACE inhibitors and AT1-receptor blockers have similar efficacy for treating these conditions, but the receptor blockers appear to produce fewer adverse effects. Whether the sustained increase in angiotensin II concentrations after AT1-receptor antagonism produces deleterious effects is not known. The concern is that these high levels may stimulate unblocked AT2 receptor; the effect of that stimulation may not be important, however.
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PMID:Angiotensin receptors: physiology and pharmacology. 763 61

Angiotensin (AT) II, the bioactive octapeptide in the renin-angiotensin system that plays a key role in cardiovascular homeostasis, exerts its multiple effects through the different types of AT receptors, AT1a, AT1b, and AT2. Previously, we showed chronic hypotension in angiotensinogen (the precursor of AT)-deficient mice and a dramatic increase in renin mRNA levels in its kidney, but it remains unclear which types of AT receptors regulate the blood pressure and renin gene expression. In order to elucidate the physiological roles of AT1a receptor, we generated mutant mice with a targeted replacement of the AT1a receptor loci by the lacZ gene. In the heterozygous mutant mice, the strong lacZ staining was found in the glomerulus and juxtaglomerular apparatus of the renal cortex, which coincided with that of the signals detected by in situ hybridization. Chronic hypotension was observed in the heterozygous and homozygous mutant mice, with 10 and 22 mm Hg lower systolic blood pressure, respectively, than that of wild-type littermates. Both levels of renin mRNA in the kidney and plasma renin activity were markedly increased only in the homozygous mutant mice. These results demonstrated that an AT1a-mediated signal transduction pathway is, at least in part, involved in the regulation of blood pressure and renin gene expression.
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PMID:Angiotensin II type 1a receptor-deficient mice with hypotension and hyperreninemia. 764 17

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

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

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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