UMLS:C0406810 - FACTA Search

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Query: UMLS:C0406810 (NAME)
13,345 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

It has been suggested that low concentrations of angiotensin II cause vasoconstriction, whereas high concentrations evoke vasodilation. Thus, this work aimed to characterize functionally the mechanisms underlying angiotensin II-induced relaxation, at high concentration, in isolated rat aortic rings. Vascular reactivity experiments, using standard muscle bath procedures, showed that angiotensin II (1-30 microM) concentration-dependently induces relaxation of phenylephrine-precontracted rings with intact or denuded endothelium. The relaxation was not altered in the presence of ethylenediamine tetraacetic acid (EDTA), a nonselective inhibitor of metalloprotease. The selective antagonist of AT2 receptors, PD123319, inhibited angiotensin II-induced relaxation. Conversely, losartan or A-779, selective AT1 and Ang1-7 receptor antagonists, respectively, did not alter the relaxation induced by angiotensin II. HOE-140, a selective antagonist of the bradykinin B2 receptor, and amiloride, a Na+/H+ exchanger inhibitor, abolished angiotensin II-induced relaxation. Administration of exogenous bradykinin on precontracted tissues produced concentration-dependent relaxation, which was also inhibited by HOE-140. Preincubation of denuded-rings with NG-nitro-L-arginine methyl ester (L-NAME), 1H-[1,2,4]oxadiazolo[4,3-a]quinoxalin-1-one (ODQ), indomethacin, or tetraethylammonium (TEA) reduced angiotensin II-induced relaxation. The combination of L-NAME, indomethacin, and TEA completely abolished the relaxation induced by angiotensin II. 4-Aminopyridine (4-AP) as well as charybdotoxin reduced angiotensin II-induced relaxation. On the other hand, neither apamin nor glibenclamide altered the relaxation induced by angiotensin II. The major new finding of this work is that it demonstrated functionally the existence of AT2 receptors located on smooth muscle of rat aortic rings that mediated vasorelaxation via stimulation of B2 receptors by bradykinin, which in turns results in the activation of the NO-cGMP pathway, vasodilator cyclooxygenase product(s), and voltage-dependent and Ca+-activated large-conductance K+ channels.
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PMID:Mechanisms underlying the endothelium-independent relaxation induced by angiotensin II in rat aorta. 1565 62

Human urotensin II (hU-II) is a potent vasoactive peptide which modulates some of the functions of the cardiovascular and other systems. The in vivo mechanism of action by which hU-II may influence blood pressure in developmental and pathological conditions, is poorly understood. Herein, the blood pressure effects of hU-II (0.1-10 nmol/kg) injected intravenously (i.v.) were studied on ketamine/xylazine anesthetized male WKY and SHR rats aged 4 and 8 weeks. hU-II elicited dose-dependent decreases in mean arterial pressure in both strains of animals. The hypotensive responses to hU-II were, however, significantly higher in SHR rats, independently of age. Four-week-old SHR rats (which are normotensive) were, however, less responsive than their hypertensive 8-week-old counterparts. A series of pharmacological inhibitors were used to identify putative endogenous (endothelial) factors that might account for the hU-II-mediated hypotension in 8-week-old SHR. These include the non-selective nitric oxide synthase inhibitor L-NAME (5 micromol/kg), the non-selective cyclooxygenase inhibitor meclofenamate (16 micromol/kg), the voltage-sensitive and ATP-sensitive K+-channel inhibitors, 4-aminopyridine (5 micromol/kg) and glybenclamide (10 micromol/kg), the cytochrome P450 CYP2C9 inhibitor sulfaphenazole (15 micromol/kg), the cytoskeletal fixation agent phalloidin (15 micromol/kg), the endothelin ETB receptor antagonist BQ-788(35 micromol/kg), the bradykinin B2 receptor antagonist HOE 140 (0.5 micromol/kg), the angiotensin AT2 antagonist PD 123319(10 micromol/kg) and the UT receptor antagonist urantide (10 micromol/kg). These agents were administered i.v. either at 2.5, 10 or 40 min prior hU-II injection (10 nmol/kg). Among these inhibitors, sulfaphenazole and phalloidin were able to reduce hU-II-induced hypotension. This suggests that the vasodepressor effect of hU-II is mediated by UT receptors and relies in part on the release of epoxide related products; increased microvascular permeability may also contribute to the blood pressure lowering effect of hU-II. Since urantide blocks the constrictor effects of hU-II on isolated aorta, but is inactive against the hypotensive action of hU-II in vivo, the results presented in this paper provide, for the first time, evidence for the existence of two different functional sites for hU-II.
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PMID:Urotensin II-induced hypotensive responses in Wistar-Kyoto (Wky) and spontaneously hypertensive (Shr) rats. 1604 87

The venoconstrictor effect of Angiotensin II (Ang II) was investigated in the rat mesenteric venules and portal vein. Mesenteric venules were perfused at a constant rate and reactivity to Ang II (0.1 nmol) was evaluated as changes in the perfusion pressure. Rings of portal vein were mounted in organ baths and curves to Ang II (0.1-100 nmol/L) were generated. In venules, Ang II-contraction (10.6+/-1.1 mmHg) was abolished by losartan (0.9+/-0.3 mmHg*), reduced by PD 123,319 (5.8+/-0.9 mmHg*), increased by L-NAME (16.5+/-1.8 mmHg*) and not altered by indomethacin. In portal veins, curves to Ang II (-logEC50: 8.9+/-0.1 mol/L) were shifted to the right by losartan (-log EC50: 7.5+/-0.1 mol/L*) and by PD 123,319 (-logEC50: 8.0+/-0.1 mol/L*). L-NAME increased the maximal response to Ang II (Emax: 0.91+/-0.1g versus 1.62+/-0.3g*) and indomethacin had no effect. In conclusion, Ang II induces venoconstriction by activating AT1 and AT2 receptors. Data obtained with L-NAME provide evidence that the basal nitric oxide release from the endothelium of the venous system can modulate the Ang II-induced venoconstriction.
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PMID:Angiotensin II-induced venoconstriction involves both AT1 and AT2 receptors and is counterbalanced by nitric oxide. 1604 65

Recently, we demonstrated that the endothelium-dependent vasodilator effect of angiotensin(1-7) in the mouse aorta is abolished by genetic deletion of the G protein-coupled receptor encoded by the Mas protooncogene. To circumvent the limitations posed by the possible metabolism of Ang(1-7) in this vessel, in this work we studied the mechanism underlying the vasorelaxant effect of AVE 0991, a nonpeptide mimic of the effects of Ang(1-7), using wild-type and Mas-deficient mice. Ang(1-7) and AVE 0991 induced an equipotent concentration-dependent vasodilator effect in aortic rings from wild-type mice that was dependent on the presence of endothelium. The vasodilator effect of Ang(1-7) and AVE 0991 was completely blocked by 2 specific Ang(1-7) receptor antagonists, A-779 and D-Pro-Ang(1-7), and by inhibition of NO synthase with L-NAME. Moreover, in aortic rings from Mas-deficient mice, the vasodilator effect of both Ang(1-7) and AVE 0991 was abolished. In contrast, the vasodilator effect of acetylcholine and substance P were preserved in Mas-null mice. In addition, the vasoconstriction effect induced by Ang II was slightly increased, and the vasodilation induced by the AT2 agonist CGP 42112A was not altered in Mas-deficient mice. Our results show that Ang(1-7) and AVE 0991 produced an NO-dependent vasodilator effect in the mouse aorta that is mediated by the G protein-coupled receptor Mas.
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PMID:The endothelium-dependent vasodilator effect of the nonpeptide Ang(1-7) mimic AVE 0991 is abolished in the aorta of mas-knockout mice. 1611 31

Angiotensin II AT2 receptors act as a functional antagonist for the AT1 receptors in various tissues. We previously reported that activation of the renal AT2 receptors promotes natriuresis and diuresis; however, the mechanism is not known. The present study was designed to investigate whether activation of AT2 receptors affects the activity of Na+-K+-ATPase (NKA), an active tubular sodium transporter, in the proximal tubules isolated from Sprague-Dawley rats. The AT2 receptor agonist CGP-42112 (10(-10)-10(-7) M) produced a dose-dependent inhibition of NKA activity (9-38%); the inhibition was attenuated by the presence of the AT2 receptor antagonist PD-123319 (1 microM), suggesting the involvement of the AT2 receptors. The AT1 receptor antagonist losartan (1 microM) did not affect the CGP-42112 (100 nM)-induced inhibition of NKA activity. The presence of guanylyl cyclase inhibitor ODQ (10 microM) and the nitric oxide (NO) synthase inhibitor N(omega)-nitro-L-arginine methyl ester (L-NAME; 100 microM) abolished the CGP-42112 (100 nM)-induced NKA inhibition. ANG II (100 nM), in the presence of losartan, significantly inhibited NKA activity; the inhibition was attenuated by PD-123319. CGP-42112 also, in a dose-dependent manner, stimulated NO production (approximately 0-230%) and cGMP accumulation (approximately 25-100%). The CGP-42112 (100 nM)-induced NO and cGMP increases were abolished by the AT2 receptor antagonist PD-123319, ODQ, and L-NAME. The data suggest that the activation of the AT2 receptor via stimulation of the NO/cGMP pathway causes inhibition of NKA activity in the proximal tubules. This phenomenon provides a plausible mechanism responsible for the AT2 receptor-mediated natriuresis-diuresis in rodents.
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PMID:Angiotensin II AT2 receptors inhibit proximal tubular Na+-K+-ATPase activity via a NO/cGMP-dependent pathway. 1638 Apr 64

It has been suggested that low concentrations of angiotensin II cause vasoconstriction whereas high concentrations evoke vasodilation. Thus, this work aimed to functionally characterize the mechanisms underlying the relaxation induced by angiotensin II at high concentrations in isolated rat carotid rings. Experiments using standard muscle bath procedures showed that angiotensin II (0.01-3 microM) concentration dependently induces relaxation of phenylephrine-pre-contracted rings. No differences between intact or denuded endothelium were found. The angiotensin II-induced relaxation was strongly inhibited by saralasin, the non-selective antagonist of angiotensin II receptors but not by the selective antagonists of AT1 and AT2 receptors, losartan and PD123319, respectively. However, A-779, a selective angiotensin-(1-7) receptor antagonist, reduced the relaxation induced by angiotensin II. Administration of exogenous angiotensin-(1-7) on pre-contracted tissues produced concentration-dependent relaxation, which was also inhibited by A-779. HOE-140, the selective antagonist of the bradykinin in B2 receptor did not produce any significant effect on angiotensin II-induced relaxation. Pre-incubation of denuded-rings with N G-nitro-L-arginine methyl ester (L-NAME) or 1H-[1,2,4] Oxadiazolo[4,3-a]quinoxalin-1-one (ODQ) reduced angiotensin II-induced relaxation. On the other hand, neither indomethacin nor tetraethylammonium (TEA) produced any significant effect. The major new finding of this work is that high concentrations of angiotensin II induce relaxation of the rat carotid via activation of the NO-cGMP pathway through a mechanism that seems to be partially dependent on activation of angiotensin-(1-7) receptors.
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PMID:Analysis of the mechanisms underlying the vasorelaxant action of angiotensin II in the isolated rat carotid. 1638 63

Angiotensin (1-7) [Ang (1-7)] is a bioactive component of the renin angiotensin system. Ang (1-7) may interact with angiotensin type 1 (AT1) or type 2 (AT2) receptors and with Ang (1-7) - specific receptors. We examined the interactions between different doses of Ang (1-7) (1 nM-1 microM) and angiotensin II (Ang II) (10 and 100 nM) on isolated rat portal vein. In endothelium-denuded portal vein rings, Ang (1-7) inhibited contractile effects induced by Ang II. The effects of Ang (1-7) were modified by indomethacin, N(G)-nitro-L-arginine methyl ester (L-NAME), (D-Ala7)-Angiotensin (1-7) (H-2888) and losartan. Our results suggest that on rat isolated portal vein rings without endothelium, Ang (1-7) reduces Ang II-induced contractions by acting mostly on Ang (1-7) specific receptors, and this effect is mediated by vasodilatatory prostaglandins. At high concentrations, Ang (1-7) effects are mediated by AT1-receptors, though to a lesser extent than by Ang (1-7) specific receptors.
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PMID:Are multiple angiotensin receptor types involved in angiotensin (1-7) actions on isolated rat portal vein. 1647 Apr 88

Bradykinin (BK) liberates nitric oxide, prostacyclin, and tissue plasminogen activator from endothelial cells. We hypothesized that BK B2 receptor knockout (KO) mice (BKB2R(-/-)) have increased thrombosis risk. Paradoxically, the BKB2R(-/-) mice have long bleeding times and delayed carotid artery thrombosis, 78 +/- 6.7 minutes, versus 31 +/- 2.7 minutes in controls. The mechanism(s) for thrombosis protection was sought. In BKB2R(-/-) plasma coagulation, fibrinolysis and anticoagulant proteins are normal except for an increased prekallikrein and decreased factor XI. BKB2R(-/-) mice have elevated BK 1-5 (160 +/- 75 fmol/mL, vs 44 +/- 29 fmol/mL in controls) and angiotensin II (182 +/- 41 pg/mL, vs 49 +/- 7 pg/mL in controls). Ramipril treatment shortens vessel occlusion time. BKB2R(-/-) mice have elevated plasma 6-keto-PGF1alpha (666 +/- 232 ng/mL, vs 23 +/- 5.3 ng/mL in controls) and serum nitrate (61 +/- 5.3 microM, vs 24 +/- 1.8 microM in controls). Treatment with L-NAME (NG-mono-methyl-L-arginine ester) or nimesulide shortens the thrombosis time. BKB2R(-/-) mice have increased angiotensin receptor 2 (AT2R) mRNA and protein expression. Treatment with an AT2R antagonist, PD123 319, normalizes the thrombosis time and nitrate and 6-keto-PGF1alpha. The long bleeding times in BKB2R(-/-) mice also correct with L-NAME and nimesulide therapy. In BKB2R(-/-) mice, angiotensin II binding to an overexpressed AT2R promotes thromboprotection by elevating nitric oxide and prostacyclin. These investigations indicate a pathway for thrombosis risk reduction via the plasma kallikrein/kinin and renin angiotensin systems.
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PMID:Bradykinin B2 receptor knockout mice are protected from thrombosis by increased nitric oxide and prostacyclin. 1651 58

We have recently described, in the mouse aorta, the vasodilator effect of angiotensin-(1-7) (Ang-(1-7)) was mediated by activation of the Mas Ang-(1-7) receptor and that A-779 and D-Pro7-Ang-(1-7) act as Mas receptor antagonists. In this work we show pharmacological evidence for the existence of a different Ang-(1-7) receptor subtype mediating the vasodilator effect of Ang-(1-7) in the aorta from Sprague-Dawley (SD) rats. Ang-(1-7) induced an endothelium-dependent vasodilator effect in aortic rings from SD rats which was inhibited by removal of the endothelium and by L-NAME (100 microM) but not by indomethacin (10 microM). The Ang-(1-7) receptor antagonist D-Pro7-Ang-(1-7) (0.1 microM) abolished the vasodilator effect of the peptide. However, the other specific Ang-(1-7) receptor antagonist, A-779 in concentrations up to 10 microM, did not affect vasodilation induced by Ang-(1-7). The Ang II AT1 and AT2 receptors antagonists CV11974 (0.01 microM) and PD123319 (1 microM), respectively, the bradykinin B2 receptor antagonist HOE 140 (1 microM) and the inhibitor of ACE captopril (10 microM) did not change the effect of Ang-(1-7). Our results show that in the aorta of SD rats, the vasodilator effect of Ang-(1-7) is dependent on endothelium-derived nitric oxide. This effect is mediated by the activation of Ang-(1-7) receptors sensitive to D-Pro7-Ang-(1-7), but not to A-779, which suggests the existence of a different Ang-(1-7) receptor subtype.
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PMID:Evidence for a new angiotensin-(1-7) receptor subtype in the aorta of Sprague-Dawley rats. 1712 38

Ischemia/reperfusion (I/R) in post-arterior post-capillary venules induces an acute inflammatory response, characterized by increased adherence and emigration of leukocytes and vascular permeability, all of which play important roles in cardiovascular disease. The aim of this study was to determine the roles of angiotensin II and AT1 receptor blockade in microvascular I/R injury in rats. Rats were anesthetized and intubated, then the peritoneum was opened and the mesentery was revealed. Small post-capillary venules were examined by in vivo fluorescence microscopy. The flow of erythrocytes and leukocytes was observed under the microscope and video recorded for later dynamic analyses. The superior mesenteric artery (SMA) was ligated with polyethylene tubing and released to induce I/R (20 min of ischemia/60 min of reperfusion). Subsequently, leukocyte adhesion, emigration and albumin leakage were compared with those of non-I/R controls. I/R injury was significantly suppressed by superfusing tissues with the AT1 receptor antagonist losartan (LO; 10 microM). The beneficial effects of LO were inhibited by topical application of either the bradykinin B2 receptor antagonist HOE140 (10 nM) or nitric oxide (NO) synthase inhibitor Nomega-nitro-L-arginine methyl ester (L-NAME 10 microM). The effects of LO were lost in the presence of AT2 receptor blocker PD 123319 (PD). In conclusion, LO suppressed and protected against I/R injuries. The possible interaction between AT1 and AT2 receptors was also suggested.
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PMID:AT1 receptor blockade prevents microvascular dysfunction induced by ischemia/reperfusion injury. 1714 51

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