UMLS:C0004135 - FACTA Search

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

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

Angiotensin II receptor subtypes (AT1 and AT2) were characterized in rat brain by displacement with the specific angiotensin antagonists Du Pont 753 and CGP 42112A, respectively, and quantitative autoradiography. Young (2-wk-old) rats expressed AT1 receptors in selected limbic system areas, structures involved in cardiovascular and fluid regulation, parts of the hippocampal formation, and the choroid plexus. In young rats, AT2 receptors were concentrated in areas involved in control and learning of motor activity, sensory areas, and selected limbic system structures. The cingulate cortex, the molecular layer of the cerebellar cortex, and the superior colliculus contained both AT1 and AT2 receptors. The number of AT1 receptors in most areas of adult (8-wk-old) rats was similar to or even higher than that present in young rats. Conversely, AT2 receptors were always much lower in number in adult animals, and in some areas they were undetectable in adults. Their differential localization and development suggest different functions for the specific angiotensin II receptor subtypes.
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PMID:Characterization and development of angiotensin II receptor subtypes (AT1 and AT2) in rat brain. 185 48

New Zealand White rabbits were used as a model of autologous venous bypass grafting. A section of jugular vein was sutured into the divided common carotid artery. The animals were euthanized one month after surgery. At that time histopathology showed myointimal thickening of the graft segments. Angiotensin II receptor assays showed that the AT1 receptor was present in the grafts, concentrated in the intima. These localized receptors were shown to be similar to the prototypic vascular AT1 receptor through the use of the specific antagonist DuP 753.
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PMID:Angiotensin II receptors in rabbit vascular grafts. 842 52

Angiotensin II receptor levels have been shown to vary with postoperative time in tissue harvested from full-thickness dermal excisional wounds on adult rats. This study examined the expression of AII receptors in a sutured wound model. Two full-thickness incisional wounds were made in the dorsal skin of adult Sprague-Dawley rats and sutured immediately under general anesthesia. The wound tissues were harvested at 0, 0.5, 1, 2, 4, 24 h and on days 2, 3, 4, 5, 7, and 10 after the wounding. The levels of 125I-Sar1.Ile8-AII bound to membrane preparations of the wound tissues decreased at early time points (from 0.5 to 4 h), increased from day 1 to day 7, and returned to nonsurgical levels by day 10. Competitive binding studies showed that the receptors were predominantly of the AT1 receptor subtype. These results suggest that an immediate and transient reduction in AII receptor expression occurred after wounding, followed by an increase in the number of AII receptors that was maintained for 5 to 7 days postoperatively. Because these data are consistent with those observed after excisional wounding, temporal changes in AII receptor expression may be integral to the process of wound healing.
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PMID:Alterations of angiotensin II Receptor levels in sutured wounds in rat skin. 898 Dec 18

As an antihypertensive regimen, angiotensin I-converting enzyme (ACE) inhibition appears to have an antiproliferative cardiovascular effect that is not caused by blood pressure reduction alone. On the other hand, ACE inhibition has been shown to induce neocapillarization in hypertrophied myocardium. The possible mechanisms behind these beneficial cardiovascular effects of ACE inhibition are the suppression of angiotensin II formation and the potentiation of bradykinin. Angiotensin II receptor antagonism appears to have a similar antiproliferative effect on myocardium and vascular smooth muscle as ACE inhibition. This suggests that the antiproliferative action of both regimens is due only to the reduction of the pressor and growth effects of angiotensin II, or that both regimens have an additional, similarly effective antiproliferative action. Recently, knowledge about angiotensin II receptors has almost exponentially expanded. The two main classes of angiotensin II receptors, type 1 and 2 (AT1 and AT2), have been shown to belong to the same receptor family. However, their signal transduction and function seem to differ totally. The function and signal transduction of AT1 are to a large extent known. All the well-known physiological and pathophysiological effects of angiotensin II have been attributed to AT1. On the other hand, AT2 has quite recently been shown to mediate antiproliferation and differentiation at least in some tissues and cells, e.g. in vascular endothelial cells and some cells of neuronal origin. This review highlights the recent findings on angiotensin II receptors, and discusses the mechanisms behind the beneficial cardiovascular effects of interfering with the renin-angiotensin system.
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PMID:The role of angiotensin receptors in cardiovascular diseases. 907 21

There is no agreement on the effect of angiotensin II receptor blockade in the setting of ischemic reperfusion. Our aim was to assess the acute effects of angiotensin-converting enzyme (ACE) inhibition and angiotensin II AT1-subtype receptor blockade in pig heart. Five groups of open-chest pigs received 1 hour of left anterior descending (LAD) coronary artery occlusion and 2 hours of reperfusion. Left ventricular pressure was monitored by an intraventricular catheter, and regional segment shortening (%SS) in the LAD-supplied territory was measured by ultrasonic crystals implanted in the subendocardium. Group 1 (n = 6) served as the control; groups 2 (n = 6) and 3 (n = 6) received the angiotensin II receptor blocker, EXP 3174 (C22H21Cl1N6O2), and the ACE inhibitor, enalaprilat, respectively, prior to LAD occlusion; group 4 (n = 6) was preconditioned with two cycles of 10 minutes of coronary occlusion and 30 minutes of reperfusion; and group 5 (n = 6) underwent preconditioning with additional administration of EXP 3174 prior to the 60-minute occlusion period. Infarct sizes were measured by p-nitrobluetetrazolium staining and were expressed in percent of the ischemic area of risk. The angiotensin II receptor blocker EXP 3174 and enalaprilat reduced infarct sizes significantly (35.3 +/- 17.1% and 40.1 +/- 15.1%, respectively) compared with controls (71.2 +/- 12.8%, P < 0.05), and EXP 3174 augmented the infarct size-limiting effects of preconditioning by ischemia (10.5 +/- 6% vs. 28.6 +/- 5.3%, P < 0.05). Regional contractile dysfunction during reperfusion demonstrated no changes after angiotensin II receptor blockade. Angiotensin II receptor blockade reduced infarct size comparable with that obtained with angiotensin converting-enzyme inhibition. The infarct size-limiting effects of ischemic preconditioning were augmented by administration of the angiotensin II receptor antagonist EXP 3174. These data support the concept that blockade or inhibition of angiotensin II before coronary occlusion is protective in a swine model of acute ischemia and reperfusion.
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PMID:Angiotensin II receptor antagonist EXP 3174 reduces infarct size comparable with enalaprilat and augments preconditioning in the pig heart. 949 8

Studies on ligand-receptor interaction of Angiotensin II (Ang II) receptor type 1 have shown that for peptidic ligands to bind this receptor they must interact via their C-terminal carboxylate group to the positively charged side chain of the Lysine residue 199 located in the fifth transmembrane domain of this receptor. In the Ang II receptor type AT2, this Lysine residue is conserved at position 215 in the fifth transmembrane domain. To determine the specific mechanism of ligand binding to the Angiotensin II receptor type AT2, mutated AT2 receptors were generated in which the Lys215 was replaced with glutamic acid, glutamine, alanine and arginine. The ability of these mutated receptors to bind peptidic ligands 125I-[Sar1-Ile8]Ang II (non-specific for AT2 receptor type), 125I-CGP42112A (AT2 receptor specific) and the non-peptidic ligand PD123319 (AT2 receptor specific) was evaluated by expressing these receptors in Xenopus oocytes and performing binding assays. The Lys215Glu and Lys215Gln mutants of AT2 receptor lost their affinity to 125I-[Sar1-Ile8]Ang II, but retained their affinity to 125I-CGP42112A and PD123319. In contrast, Lys215Arg mutant retained its affinity to 125I-[Sar1-Ile8]Ang II, but exhibited lower affinity to 125I-CGP42112A. The Lys215Ala mutant lost its affinity to both 125I-[Sar1-Ile8]Ang II and 125I-CGP42112A. These results suggest that the binding mechanism of 125I-[Sar1-Ile8]Ang II to AT2 receptor is similar to that of AT1 receptor since an amino acid with positively charged side chain (Lys or Arg) located in the fifth transmembrane domain is required for this ligand to bind AT2 receptor. In contrast, although CGP42112A is a peptidic ligand, it does not require an interaction between its C-terminal carboxylate group and the positively charged side-chain of an amino acid in the fifth transmembrane domain for its binding to AT2 receptor.
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PMID:Role of Lys215 located in the fifth transmembrane domain of the AT2 receptor in ligand-receptor interaction. 953 73

Angiotensin II receptor subtypes AT1 and AT2 are proteins with seven transmembrane domain (TMD) topology and share 34% homology. It was shown that His256, located in the sixth TMD of the AT1 receptor, is needed for the agonist activation by the Phe8 side chain of angiotensin II, although replacing this residue with arginine or glutamine did not significantly alter the affinity binding of the receptor. We hypothesized that the His273 located in the sixth transmembrane domain of the AT2 receptor may play a similar role in the functions of the AT2 receptor, although this residue was not identified as a conserved residue in the initial homology comparisions. Therefore, we replaced His273 of the AT2 receptor with arginine or glutamine and analyzed the ligand-binding properties of the mutant receptors using Xenopus oocytes as an expression system. Our results suggested that the AT2 receptor mutants His273Arg and His273 Glu have lost their affinity to [125I-Sar1-Ile8]Ang II, a peptidic ligand that binds both the AT1 and AT2 receptors and to 125I-CGP42112A, a peptidic ligand that binds specifically to the AT2 receptor. Thus, His273 located in the sixth TMD of the AT2 receptor seems to play an important role in determining the binding properties of this receptor. Moreover, these results along with our previous observation that the Lys215 located in the 5th TMD of the AT2 receptor is essential for its high affinity binding to [125I-Sar1-Ile8]Ang II indicate that key amino acids located in the 5th and 6th TMDs of the AT2 receptor are needed for high affinity binding of the AT2 to its ligands.
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PMID:Role of the His273 located in the sixth transmembrane domain of the angiotensin II receptor subtype AT2 in ligand-receptor interaction. 1020 47

This study was conducted to assess the pharmacologic properties of the new orally active angiotensin II subtype I (AT1) antagonist UR-7247, a product with a half-life >100 h in humans. The experiment was designed as an open-label, single-dose administration study with four parallel groups of four healthy men receiving increasing single oral doses (2.5, 5, and 10 mg) of UR-7247 or losartan, 100 mg. Angiotensin II receptor blockade was investigated < or =96 h after drug intake, with three independent methods [i.e., the inhibition of blood pressure (BP) response to exogenous Ang II, an in vitro Ang II-receptor assay (RRA), and the reactive increase in plasma angiotensin II. Plasma drug levels also were measured. The degree of blockade observed in vivo was statistically significant < or = 96 h with all UR-7247 doses for diastolic BP (p < 0.05) and < or =48 h for systolic BP. The maximal inhibition achieved with 10 mg UR-7247 was measured 6-24 h after drug intake and reached 54 +/- 17% and 48 +/- 20% for diastolic and systolic responses, respectively. Losartan, 100 mg, induced a greater short-term AT1-receptor blockade than 2.5- and 5.0-mg doses of UR-7247 (p < 0.001 for diastolic BP), but the UR-7247 effect was longer lasting. In vivo, no significant difference was observed between 10 mg UR-7247 and 100 mg losartan 4 h after drug intake, but in vitro, the blockade achieved with 100 mg losartan was higher than that seen with UR-7247. Finally, the results confirm that UR-7247 has a very long plasma elimination half-life, which may be due to a high but also tight binding to protein binding sites. In conclusion, UR-7247 is a long-lasting, well-tolerated AT1 receptor in healthy subjects.
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PMID:Pharmacologic profile of UR-7247, an orally active angiotensin II AT1 receptor antagonist, in healthy volunteers. p6. 1071 Jan 22

RENIN-ANGIOTENSIN SYSTEM: This system plays a major role in regulation of blood pressure. Angiotensin converting enzyme inhibitors (CEI) modify the balance between the vasocilator and diuretic properties of bradykinin and the vasoconstrictor and antidiuretic properties of angiotensin II, favoring vasodilatation and natriuresis. Angiotensin II receptor antagonists (ARAII) block AT1 receptors and stimulate AT2 receptors with favorable vasodilator and natriuretic affects. CEI: Converting enzyme inhibitors play an indispensable role in the treatment of heart failure and should be prescribed at high dosage. They have a long-term beneficial effect. ARAII: These compound could play a role in the future, but studies conducted to date comparing ARAII and CEI have been unable to demonstrate superior or equivalent effects with ARAII, and do not warrant their prescription for hypertension.
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PMID:[Chronic cardiac insufficiency. Treatment with angiotensin I converting enzyme inhibitors and angiotensin II receptor antagonists]. 1079 30

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