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)

Angiotensin II exerts positive inotropic and chronotropic effects on the mammalian heart by binding to specific membrane receptors. Recently, two subtypes of angiotensin II receptors (AT1 and AT2) have been distinguished by using the nonpeptide antagonists losartan (previously known as DuP 753) and PD123177. To evaluate the tissue distribution and subtypes of angiotensin II receptors in rat heart, we performed a 125I-[Sar1,Ile8]angiotensin II in situ binding assay on tissue sections obtained from adult Sprague-Dawley rats (10 and 14 weeks old). Binding specificity was verified by competition with unlabeled [Sar1]angiotensin II. Distribution of AT1 and AT2 receptors was determined by competition with losartan and PD123177, respectively, and the density of the receptors was quantified by emulsion autoradiography. Angiotensin II receptors were widely distributed throughout the heart, with each receptor subtype accounting for approximately 50% of the specific binding. Binding density was comparable in the atria, right and left ventricles, intraventricular septum, and sinoatrial node, whereas it was significantly greater in the atrioventricular node. The AT1 receptor appears to interact with guanidine nucleotide regulatory proteins, because GTP-gamma-S causes dissociation of the radioligand from this receptor. In contrast, the AT2 receptor does not appear to directly interact with guanine nucleotide regulatory proteins, inasmuch as radioligand dissociation from this receptor subtype is not affected by GTP-gamma-S. Because angiotensin II has been reported to have growth-potentiating effects in several tissues, we examined angiotensin II receptors in fetal (embryonic days 16 and 19) and neonatal (1-, 2-, 3-, and 10-day-old) rats.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Characterization of angiotensin II receptor subtypes in rat heart. 142 40

Angiotensin II (AT) receptor subtypes (AT1, selectively displaced by DuP 753, and AT2, selectively displaced by PD123177 and CGP42112A) were characterized by quantitative autoradiography after incubation with the AT agonist 125I-Sar1-AT, in specific brain nuclei of young (2-week-old) rats. Binding to AT1 receptors was sensitive (decreased affinity) to incubation in the presence of guanosine 5'-O-(3-thio)triphosphate (GTP gamma S). Only the AT1 receptors in the paraventricular nucleus were sensitive to pertussis toxin, indicating the possibility of the existence of AT1 receptor subtypes. The sensitivity of AT2 receptors to GTP gamma S was heterogeneous. In the ventral thalamic and medial geniculate nuclei and in the locus coeruleus, binding to AT2 receptors was sensitive to GTP gamma S and to pertussis toxin pretreatment. Conversely, in the inferior olive, binding was insensitive to GTP gamma S and to pertussis toxin pretreatment. We propose the nomenclature of AT2A receptors for those receptors sensitive to guanine nucleotides and pertussis toxin and that of AT2B receptors for those showing no sensitivity to guanine nucleotides or pertussis toxin treatment.
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PMID:Heterogeneity of angiotensin II AT2 receptors in the rat brain. 153 9

Two angiotensin II (AII) receptor subtypes, AT1 and AT2, have recently been identified based on their relative affinities for selective peptide and nonpeptide antagonists. In the present study we used various AII peptide analogs, the AT1 subtype selective antagonists, DuP 753 and SK&F 108566, and the AT2 subtype selective antagonists, WL-19 and CGP 42112A, to determine whether AII receptor subtypes exist in the kidney. In agreement with previous studies, octapeptide (Sar1,Ile8-AII) and heptapeptide (AIII and Ile8-AIII) AII analogs displaced [125I]AII bound to rat glomerular membranes with similar affinities. However, in membranes derived from cortical tubules and the outer medulla, the heptapeptide analogs were 20-fold less potent in competing with [125I]AII binding than octapeptide analogs. The AT1 subtype selective nonpeptide AII antagonists, DuP 753 and SK&F 108566, totally displaced [125I]AII binding from all three membrane preparations in a monophasic manner with IC50 values in the 5 to 30 nM range. The AT2 selective peptide antagonist, CGP 42112A, had a low affinity in AII three membranes (IC50 = 450-1050 nM), whereas the nonpeptide AT2 selective antagonist, WL-19, had no activity at concentrations up to 10 microM. Dithiothreitol and the nonhydrolyzable GTP analog, 5'-guanylyl-imidodiphosphate, inhibited AII binding to all three membrane preparations. Based on these results, we conclude that the AII receptors located on glomeruli, tubules and in the outer medulla belong to the AT1 subtype, and that the physiologically important renal actions of AII are mediated through activation of AT1 receptors.
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PMID:Characterization of renal angiotensin II receptors using subtype selective antagonists. 154 5

Angiotensin-II (Ang II) stimulates gene expression and cell growth in several cell types. Studies that have shown localization of Ang II to nuclei of myocytes and hepatic nuclear Ang II binding suggest that these actions may be mediated by nuclear receptors. We characterized Ang II binding to rat liver nuclei, which were free of plasma membrane based on enzyme analysis and electron microscopy. At 18 C, specific binding of 0.1-0.3 nM [125I]Ang II to nuclei and nuclear envelopes reached equilibrium by 2 h. Unlabeled Ang II inhibited [125I]Ang II binding to nuclei with an IC50 of 1.4 +/- 0.2 nM (+/- SE; n = 6). In half of the nuclear preparations, a lower affinity site (IC50, 50.4 +/- 23.6 nM), which accounted for 7-32% of specific Ang II binding, was detected by Scatchard analysis. Results similar to these were obtained with nuclear envelopes. Other Ang peptides competed for binding in the rank order: Ang III (IC50, 2.1 nM) greater than Ang I (IC50, 33) greater than [Des-Phe8]Ang II (IC50, 362) greater than [Des-Asp1-Des-Arg2]Ang II (IC50, 736). Losartan (DuP 753), an AT1 receptor antagonist, inhibited binding (IC50, 10.9 +/- 0.9 nM), whereas the AT2 receptor antagonist PD123177 did not. The pH optimum for binding to nuclear envelopes was 7, with binding more sensitive to low (5 and 6) than high (8 and 9) pH. Nonhydrolyzable GTP analogs accelerated displacement of bound [125I]Ang II by 10(-5) M Ang II. Differences were noted in pH sensitivity, time course, binding affinity for Ang I, II, and III, and rate of dissociation between nuclei or nuclear envelopes and plasma membrane Ang II binding. These results suggest that nuclear envelopes have a G-protein-coupled Ang II-binding site, which belongs to the AT1 class of Ang II receptors, with properties different from the plasma membrane receptor.
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PMID:Angiotensin-II-binding sites on hepatocyte nuclei. 159 61

Angiotensin II receptor number was higher in superior cervical ganglia of 2-week-old when compared to 8-week-old rats. In both young and adult rats, specific binding of [125I][Sar1]angiotensin II was displaced competitively by the AT1-receptor antagonist DuP 753 but not by the AT2-receptor competitor PD 123177. In ganglia from adult rats, DuP 753 competed with an IC50 of 113 nM. The stable guanine nucleotide GTP gamma S inhibited binding of [125I][Sar1]angiotensin II in young and adult rats by approximately 50% with IC50 values of 105 and 120 nM, respectively, suggesting that the angiotensin receptor is G-protein linked. Angiotensin II at a dose of 1 microM stimulated inositol phosphate formation 58% over control values in superior cervical ganglia from 8-week-old rats. This effect was totally blocked by 10 microM DuP 753 but not by 10 microM PD 123177. Our findings demonstrate that rat superior cervical ganglia contain AT1-type angiotensin receptors that are probably G-protein linked, and their stimulation results in increased inositol phospholipid metabolism.
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PMID:Angiotensin II AT1 receptors in rat superior cervical ganglia: characterization and stimulation of phosphoinositide hydrolysis. 166 60

Specific binding site for 125I-angiotensin II (Ang II), with unique pharmacological properties uncommon to the hitherto recognized receptor subtypes, was observed in mouse neuroblastoma cells (Neuro-2A). Differentiation of the cells with 100 nM PGE1 resulted in a 10-fold increase in the number of Ang II binding sites without changing the binding affinity (Kd value: 12.0 nM). 125I-Ang II binding to membranes of differentiated Neuro-2A was inhibited by unlabeled Ang II with a Ki value of 7.06 +/- 1.09 nM but not by Ang III (1 microM). Both AT1 antagonist, Dup753, and AT2 antagonist, PD123319, failed to inhibit 125I-Ang II binding at 1 microM. 125I-Ang II binding was not affected by GTP analogs such as GTP gamma S and Gpp(NH)p. These results suggest that Neuro-2A cells possess a binding site for Ang II which is different from the presently known subtypes of Ang II receptors, and that the number of the binding site is regulated by cell differentiation.
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PMID:Identification and characterization of a new binding site for angiotensin II in mouse neuroblastoma neuro-2A cells. 173 96

Angiotensin II (Ang II) receptors, estimated by the specific binding of the peptide Ang II receptor antagonist [125I] [Sar1,Ile8]Ang II, are localized on multiple ovarian structures, including follicular granulosa cells. Using the Ang II receptor subtype-selective nonpeptide antagonists, DuP 753 [selective for the type 1 Ang II (AT1) receptor] and PD 123319 [selective for the type 2 Ang II (AT2) receptor], we show that follicular granulosa cells, in vivo and in vitro, exclusively express the AT2 receptor. To understand the function of Ang II in ovarian follicles, we compared the biochemical properties and transmembrane signaling pathways of the granulosa cell AT2 receptor with those properties generally associated with Ang II receptors found in the adrenal zona glomerulosa, where the AT1 receptor predominates. The mol wt of the granulosa cell AT2 receptor (approximately 79,000), estimated by affinity cross-linking studies, is similar to that of the adrenal zona glomerulosa Ang II receptor. Like the adrenal zona glomerulosa Ang II receptor, binding inhibition studies show that the granulosa cell AT2 receptor binds Ang II and Ang III with high affinity (IC50, approximately 0.5 nM for both peptides), but not Ang-(1-7) (IC50, approximately 0.5 microM) or Ang-(1-5) (IC50, greater than 10 microM). However, unlike the adrenal zona glomerulosa Ang II receptor, the granulosa cell AT2 receptor does not undergo agonist-induced endocytosis. Further, Ang II does not affect basal or stimulated inositol phosphate production, intracellular Ca2+ mobilization, or adenylyl cyclase or guanylyl cyclase activity in granulosa cells. The granulosa cell AT2 receptor does not appear to directly interact with guanine nucleotide binding regulatory proteins, since agonist dissociation from the AT2 receptor is unaffected by the GTP analog guanosine 5'-O-(3-thiotriphosphate); in contrast, the AT1 receptor appears to directly interact with guanine nucleotide binding regulatory protein, because agonist dissociation from the AT1 receptor is stimulated by guanosine 5'-O-(3-thiotriphosphate). These studies clearly demonstrate that the granulosa cell AT2 receptor is functionally distinct from the well characterized adrenal zona glomerulosa Ang II receptor. The exclusive presence of the AT2 receptor on the granulosa cell makes it an ideal cell type for studying the potential, but as yet unknown, function of this receptor.
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PMID:Biochemical properties of the ovarian granulosa cell type 2-angiotensin II receptor. 184 6

We have studied the effect of GTP gamma S on the affinity and binding kinetics of angiotensin II in plasma membrane particulate prepared from tissues expressing either only AT1 (human renal artery smooth muscle cells), only AT2 (human myometrium and bovine cerebellar cortex) or both angiotensin II receptor subtypes (rat adrenal glomerulosa). We also examined the ability of angiotensin II to stimulate GTP gamma[35S] incorporation in these membrane preparations. In contrast to its effects on angiotensin II binding to the AT1 receptor, GTP gamma S does not affect binding parameters to the AT2 receptor. Moreover, in tissues expressing solely AT2 receptors, angiotensin II was unable to induce GTP gamma[35S] incorporation. These findings indicate that AT2 receptors do not interact with G-proteins and that angiotensin II must therefore mediate some of its effects through G-protein-independent mechanisms.
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PMID:Angiotensin II AT2 receptors do not interact with guanine nucleotide binding proteins. 190 81

Quantitative autoradiography was used to characterize angiotensin AT1 and AT2 receptors, in the rat aorta at three developmental ages; embryonic day 18 (E18), and postnatal weeks 2 and 8. The expression of angiotensin receptors was higher in the aorta of E18 and 2-week-old rat. A major proportion of the angiotensin receptors expressed in the aorta at these two ages was AT2 (84 and 81% respectively). Conversely, in the aorta of 8-week-old rats, AT1 was the predominant angiotensin receptor subtype (71%). In 8-week-old rats, the AT2 subtype was also present (28%). In pre- and postnatal rats, [125I]Sar1-angiotensin II binding to AT1 receptors was sensitive to GTP gamma S whereas binding to AT2 receptors was not. AT2 receptors may serve an important role during stages of rapid growth of the aorta, and also have a significant function in the adult vasculature.
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PMID:Changes in expression of angiotensin receptor subtypes in the rat aorta during development. 193 Jan 81

In the present study, we demonstrate the presence of Ca(2+)-activated K+ channels in rat glomerulosa cells. We find that angiotensin II (Ang II) inhibits this charybdotoxin-sensitive current. The effect of Ang II was dose-dependent with an inhibition constant (Ki) of 0.98 nM and a maximal effect observed at 200 nM. Time course of the blockage was as rapid as the one induced by charybdotoxin. This effect is mediated by the AT1 receptor subtype of Ang II, since it is blocked by DUP 753 but is unaffected by CGP 42112. Activation of protein kinase C by phorbol dibutyrate (1 microM) or dialysis of the cell with inositol 1,4,5-triphosphate (20 microM) were ineffective in blocking the current. However, experiments done with GDP beta S and GTP gamma S indicated that a G protein was involved. The inhibitory effect of Ang II was not pertussis toxin-sensitive, which excludes Gi protein, but was abrogated if an antibody raised against the alpha-subunit of the Gq/11 protein was present in the patch pipette medium. Further analysis showed that the Ca(2+)-activated K+ channel was able to modulate the membrane potential according to the level of intracellular calcium concentration ([Ca2+]i). Whereas a thapsigargin-induced increase in [Ca2+]i hyperpolarized the membrane, this effect was not observed when Ang II was used to increase [Ca2+]i because of the blockage of the Ca(2+)-activated K+ current. The blockage of Ca(2+)-activated K+ current by Ang II would result in a synergistic effect on the Ang II-induced depolarization, thus favoring Ca2+ influx, an event essential to secretion.
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PMID:Modulation of a Ca(2+)-activated K+ channel by angiotensin II in rat adrenal glomerulosa cells: involvement of a G protein. 747 91


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