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)

The hexapeptide angiotensin (ANG) IV, a metabolic product of ANG II, has been reported to play a functional role in the regulation of blood flow in extrapulmonary tissues. Here, we demonstrate that ANG IV-specific (AT4) receptors are present in porcine pulmonary arterial endothelial cells (PAECs) and that the binding of ANG IV to AT4 receptors can be blocked by its antagonist divalinal ANG IV but not by the ANG II-, AT1-, and AT2-receptor blockers [Sar1,Ile8]ANG II, losartan, and PD-123177, respectively. ANG IV significantly increased endothelial cell constitutive nitric oxide synthase (ecNOS) activity (P < 0.05) as well as cellular cGMP content (P < 0. 001). Western blot analysis revealed that ecNOS protein expression was comparable in control and ANG IV-stimulated cells. Divalinal ANG IV but not [Sar1,Ile8]ANG II, losartan, or PD-123177 inhibited the ANG II- and ANG IV-stimulated increases in ecNOS activity and cGMP content in PAECs. Incubation in the presence of N-nitro-L-arginine methyl ester (L-NAME) or methylene blue but not of indomethacin significantly diminished ANG IV-stimulated as well as basal levels of cGMP (P < 0.001). Similarly, in situ studies with precontracted porcine pulmonary arterial rings showed that ANG IV caused an endothelium-dependent relaxation that was blocked by L-NAME or methylene blue. Collectively, these results demonstrate that ANG IV binds to AT4 receptors, activates ecNOS by posttranscriptional modulation, stimulates cGMP accumulation in PAECs, and causes pulmonary arterial vasodilation, suggesting that ANG IV plays a role in the regulation of blood flow in the pulmonary circulation.
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PMID:Angiotensin IV receptor-mediated activation of lung endothelial NOS is associated with vasorelaxation. 984 42

Nitric Oxide (NO) is a gas that diffuses freely through membranes of target cells to activate cGMP formation. NO is synthesised from arginine, by a family of Nitric Oxide Synthase (NOS). In the brain, NO influences synaptic plasticity, apoptosis and development. It has been recently shown that angiotensin II (Ang II) could mediate NO production by its two types of receptors, AT1 and AT2. Since we have shown that Ang II, via the AT2 receptor could induce neurite outgrowth and morphological differentiation of NG108-15 cells, the aim of the study was to investigate if NO could be one of the second messengers involved in the Ang II effect. Using the Griess colorimetric assay, we found that Ang II, by its AT2 receptor, induced nitrite formation from NO. This effect was abolished by the N-nitro-L-arginine methyl ester (L-NAME), a NOS inhibitor. We also found that treatment of the cells with S-nitroso-N-acetylpenicillamine (SNAP), an exogenous source of NO, induced the same morphological differentiation. These results demonstrate that the morphological differentiation induced by the AT2 receptor is partly due to an increase in NO production.
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PMID:Nitric oxide, a new second messenger involved in the action of angiotensin II on neuronal differentiation of NG108-15 cells. 988 14

Inhibition of nitric oxide synthase by L-arginine analogues was shown to attenuate the antihypertensive effect of angiotensin II (AngII) type-1 receptor blockade, thus suggesting that nitric oxide might partly mediate the systemic effect of these agents. In the present experiment, the effects of an acute administration of candesartan on arterial pressure, renal blood flow (transit time method), and resistance were assessed in anesthetized normotensive rats infused or not with NG-nitro-L-arginine methyl ester (L-NAME) (20 microg/kg per min for 60 min). Candesartan was given at a dose of 0.5 mg/kg intravenous bolus in normotensive rats. Candesartan reduced arterial pressure by 15+/-2% and renal vascular resistance by 31+/-2% in nonpretreated rats. Pretreatment by L-NAME did not affect the BP lowering effect of candesartan but blunted by 60 to 100% the renal response to candesartan. Concomitant administration of L-arginine restored the renal vasodilatory action of candesartan. Plasma renin concentration was reduced by L-NAME from 122+/-23 to 69+/-14 ng AngI/ml per h and not further modified by L-arginine (71+/-16 ng AngI/ml per h). Neither the systemic and renal hemodynamic responses to AngII nor its blockade by candesartan were affected by L-NAME. The loss of renal vasodilatory effect of candesartan during L-NAME infusion suggests that AT1 receptor blockade is associated with an increase in nitric oxide-dependent tone, which participates in the full expression of the renal vasodilatory action of AngII type-1 receptor blockade in anesthetized normotensive rats.
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PMID:Nitric oxide participates in the renal vasodilatory effect of candesartan in anesthetized rats. 989 65

The potential antithrombotic action of losartan, an AT1 receptor antagonist, administered to two-kidney, one-clip rats (2K1C) in an experimental model of venous thrombosis was evaluated. The involvement of nitric oxide (NO) in this effect was also studied. Venous stasis was induced by ligation of the vena cava. Losartan after single dose (10 mg/kg, p.o.) significantly reduced the venous thrombus growth. The antithrombotic action of losartan in 2K1C rats was abolished by N(G)-nitro-L-arginine methyl ester (L-NAME, 30 mg/kg s.c.) and restored by L-arginine (1000 mg/kg s.c.). Platelet adhesion to fibrillar collagen significantly decreased after administration of losartan. No changes in primary hemostasis and platelet aggregation were observed. Moreover, coagulation parameters such as activated partial thromboplastin time, prothrombin time and euglobulin clot lysis time were found unchanged after losartan administration either in systemic circulation or at the place of thrombus formation. Our results indicate that antithrombotic activity of losartan in 2K1C rats is NO--dependent; observed inhibition of platelet adhesion could also play a role in this phenomenon.
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PMID:Antithrombotic activity of losartan in two kidney, one clip hypertensive rats. A study on the mechanism of action. 1021 Jan 58

1. Human isolated subcutaneous arteries were studied under isometric conditions in a myograph. 2. Addition of angiotensin II (AII) induced a concentration-dependent increase in tone in isolated arteries. The active metabolite of candesartan (CV 11974), losartan and the active metabolite of losartan, E-3174 antagonized AII-induced tone in a non-competitive manner, but the AT2 selective antagonist, PD123319, was without effect on responses to AII. The effects of candesartan, losartan and E-3174 were analysed using a classical model of non-competitive antagonism and a two-state receptor model. 3. Mechanical removal of the endothelium; pre-incubation with Nomega-nitro-L-arginine methyl ester hydrochloride (L-NAME); pre-incubation with indomethacin, a cyclo-oxygenase inhibitor; or pre-incubation with BQ 485, an endothelin antagonist; had no significant effect on contractions induced by AII. 4. Our results suggest AII contracts human isolated resistance arteries by an action on AT1 receptors and does not involve release of endothelial factors. Use of a two-state receptor model successfully described the action of the AT1 antagonists without sacrificing assumptions regarding the competitive nature of binding of these antagonists.
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PMID:Action of AT1 receptor antagonists on angiotensin II-induced tone in human isolated subcutaneous resistance arteries. 1048 19

Angiotensin II (Ang II) is a potent vasopressor peptide that interacts with 2 major receptor isoforms - AT1 and AT2. Although blood pressure is increased in AT2 knockout mice, the underlying mechanisms remain undefined because of the low levels of expression of AT2 in the vasculature. Here we overexpressed AT2 in vascular smooth muscle (VSM) cells in transgenic (TG) mice. Aortic AT1 was not affected by overexpression of AT2. Chronic infusion of Ang II into AT2-TG mice completely abolished the AT1-mediated pressor effect, which was blocked by inhibitors of bradykinin type 2 receptor (icatibant) and nitric oxide (NO) synthase (L-NAME). Aortic explants from TG mice showed greatly increased cGMP production and diminished Ang II-induced vascular constriction. Removal of endothelium or treatment with icatibant and L-NAME abolished these AT2-mediated effects. AT2 blocked the amiloride-sensitive Na(+)/H(+) exchanger, promoting intracellular acidosis in VSM cells and activating kininogenases. The resulting enhancement of aortic kinin formation in TG mice was not affected by removal of endothelium. Our results suggest that AT2 in aortic VSM cells stimulates the production of bradykinin, which stimulates the NO/cGMP system in a paracrine manner to promote vasodilation. Selective stimulation of AT2 in the presence of AT1 antagonists is predicted to have a beneficial clinical effect in controlling blood pressure.
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PMID:Angiotensin II type 2 receptor overexpression activates the vascular kinin system and causes vasodilation. 1052 37

We previously reported that chronic inhibition of nitric oxide (NO) synthesis with N(omega)-nitro-L-arginine methyl ester (L-NAME) induces vascular inflammation at week 1 and produces subsequent arteriosclerosis at week 4 and that cotreatment with an angiotensin-converting enzyme (ACE) inhibitor prevents such changes. In the present study, we tested the hypothesis that treatment with an ACE inhibitor after development of vascular inflammation could inhibit arteriosclerosis in rats. Wistar-Kyoto rats were randomized to four groups: the control group received no drugs, the 4wL-NAME group received L-NAME (100 mg x kg(-1) x day(-1)) for 4 wk, the 1wL + 3wNT group received L-NAME for 1 wk and no treatment for the subsequent 3 wk, and the 1wL + 3wACEI group received L-NAME for 1 wk and the ACE inhibitor imidapril (20 mg x kg(-1) x day(-1)) for the subsequent 3 wk. After 4 wk, we observed significant arteriosclerosis of the coronary artery (medial thickening and fibrosis) and increased cardiac ACE activity in the 1wL + 3wNT group as well as in the 4wL-NAME group, but not in the 1wL + 3wACEI group. In a separate study, we examined apoptosis formation and found that posttreatment with imidapril (20 mg x kg(-1) x day(-1)) or an ANG II AT1-receptor antagonist, CS-866 (5 mg x kg(-1) x day(-1)), induced apoptosis (TdT-mediated nick end-labeling) in monocytes and myofibroblasts appearing in the inflammatory lesions associated with a clear degradation in the heart (DNA electrophoresis). In conclusion, treatment with the ACE inhibitor after 1 wk of L-NAME administration inhibited arteriosclerosis by inducing apoptosis in the cells with inflammatory lesions in this study, suggesting that increased ANG II activity inhibited apoptosis of the cells with inflammatory lesions and thus contributed to the development of arteriosclerosis.
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PMID:Regression by ACE inhibition of arteriosclerotic changes induced by chronic blockade of NO synthesis in rats. 1129 35

Acute systemic blockade of nitric oxide (NO) production by nonselective inhibitors of NO synthase (NOS) isoforms, including N(G)-nitro-L-arginine methyl ester (L-NAME) and N(G)-nitro-L-arginine (L-NNA), has been shown to produce a long-lasting pressor response in conscious and anaesthetised animals. The present study was undertaken to clarify whether the renin-angiotensin system contributes to the development of this pressor response to L-NNA. Systemic blood pressure and heart rate were continuously monitored in dogs anaesthetised with pentobarbital. Plasma renin activity in the blood obtained from a femoral artery and a renal vein was measured by use of radioimmunoassay. The acute pressor response produced by the intravenous administration of L-NNA was accompanied by reduced renin activity in both systemic and renal vascular beds. Captopril, an angiotensin converting enzyme inhibitor, counteracted the pressor response to L-NNA, whereas candesartan, an angiotensin AT1-receptor antagonist, had no apparent effect on it. The counteraction by captopril of the L-NNA-induced pressor response was likely to be attributable to enhancement by captopril of depressor responses to bradykinin, as HOE-140, a bradykinin B2 receptor antagonist, neutralised the effect of captopril. These results suggest that the pressor response acutely produced by the intravenous injection of a NOS inhibitor is not mediated by the renin-angiotensin system in anaesthetised dogs.
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PMID:Non-contribution of renin-angiotensin system to pressor response to N(G)-nitro-L-arginine in dogs. 1190 8

1. The aim of the present study was to determine whether the regulation of vascular natriuretic peptide receptors (NPR) is related to the local renin-angiotensin system (RAS). 2. Male Sprague-Dawley rats were made two-kidney, one-clip (2K1C) and deoxycorticosterone acetate (DOCA)-salt hypertensive to activate and inhibit the RAS, respectively. Another model of hypertension was induced by treatment with an inhibitor of nitric oxide synthesis, namely NG-nitro-L-arginine methyl ester (L-NAME). 3. The mRNA expression of NPR-A, NPR-C, angiotensin- converting enzyme (ACE) and angiotensin AT1 receptors was determined in the thoracic aorta by semiquantitative reverse transcription-polymerase chain reaction. The particulate guanylyl cyclase activity stimulated by atrial natriuretic peptide (ANP) was also determined in the membrane fraction of the thoracic aorta. 4. The plasma concentrations of ANP were increased significantly in the three models of hypertension. Plasma renin activity was increased in 2K1C hypertension, decreased in DOCA-salt hypertension and not significantly altered in L-NAME hypertension. 5. The mRNA expression of NPR-A and NPR-C was decreased, whereas that of ACE and AT1 receptors was increased in 2K1C and L-NAME hypertension. The mRNA expression of NPR-A and NPR-C was increased, whereas that of ACE and AT1 receptors was decreased in DOCA-salt hypertension. 6. The particulate guanylyl cyclase activity was decreased in 2K1C and L-NAME hypertension and increased in DOCA-salt hypertension. 7. The vascular expression of NPR may be reciprocally regulated by local RAS activity.
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PMID:Altered expression of vascular natriuretic peptide receptors in experimental hypertensive rats. 1198 39

Although accumulating lines of evidence indicate the proangiogenic role of angiotensin II (Ang II), little is known about the molecular mechanisms associated with such an effect. This study aimed to identify molecular events involved in Ang II-induced angiogenesis in the Matrigel model in mice. C57Bl/6 female mice received a subcutaneous injection of either Matrigel or Matrigel with Ang II (10(-7) M) alone, with Ang II and an AT1 receptor antagonist (candesartan, 10(-6) M), or with Ang II and AT2 receptor antagonist (PD123319, 10(-6) M). After 14 days, angiogenesis was assessed in the Matrigel-plug by histological evaluation and cellular counting. Ang II increased by 1.9-fold the number of cells within the Matrigel (p < 0.01 versus control). Immunohistological analysis revealed the presence of macrophages, endothelial and smooth muscle cells, and the development of vascular-like structure. Such an angiogenic effect was associated with an increase in vascular endothelial growth factor (VEGF) (1.5-fold, p < 0.01), endothelial nitric oxide (eNOS) (1.7-fold, p < 0.01), and cyclooxygenase-2 (1.4-fold, p < 0.05) protein levels measured by Western blotting. Conversely, Ang II treatment did not affect MMP-9 and MMP-2 activity, assessed by zymography. Blockade of AT1 receptor completely prevented the Ang II-induced angiogenesis and protein regulations, whereas that of AT2 was ineffective. Administration of VEGF neutralizing antibody (2.5 microg ip twice a week) and cyclooxygenase-2 selective inhibitor (nimesulide, 30 mg/L) also hampered Ang II proangiogenic effect. In addition, Ang II-induced cell ingrowth was impaired by treatment with nitric oxide synthase inhibitor (L-NAME, 10 mg/kg/day) and in eNOS-deficient mice. Therefore, in an in vivo model, Ang II induced angiogenesis through AT1 receptor, which involved activation of VEGF/eNOS-related pathway and of the inflammatory process.
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PMID:Angiotensin II angiogenic effect in vivo involves vascular endothelial growth factor- and inflammation-related pathways. 1206 85

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