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)

1. Angiotensin II produced concentration-dependent enhancement of both stimulation-induced (S-I) efflux of [3H]-noradrenaline and stimulation-evoked vasoconstrictor responses in isolated preparations of rat caudal artery in which the noradrenergic transmitter stores had been labelled with [3H]-noradrenaline. The threshold concentrations of angiotensin II for enhancement of S-I efflux (between 0.03 and 0.1 microM) and of the stimulation-evoked vasoconstrictor responses (about 0.3 microM) were 10-1000 times higher than those that have been found for several other vascular preparations. 2. The AT1 angiotensin II receptor antagonist losartan (0.01 and 0.1 microM), reduced or abolished the enhancement of S-I efflux by 1 and 3 microM angiotensin II and the enhancement of vasoconstrictor responses by 1 microM angiotensin II. Surprisingly, the combination of 0.01 microM losartan and 0.1 microM angiotensin II enhanced S-I efflux to a much greater extent than did 0.1 microM angiotensin II alone. Moreover, the combination of 0.01 microM losartan and 0.1 microM angiotensin II enhanced stimulation-evoked vasoconstrictor responses, in contrast to the lack of effect of 0.1 microM angiotensin II alone. 3. In a concentration of 0.01 microM, the angiotensin II AT2 receptor antagonist PD 123319 did not affect the enhancement of either S-I efflux or vasoconstrictor responses by angiotensin II. However, in a higher concentration (0.1 microM), PD 123319 antagonized the enhancement of both the S-I efflux and vasoconstrictor responses by angiotensin II. 4. In concentrations of 0.01 and 0.1 microM, PD 123319 prevented the marked enhancement of both S-I efflux and stimulation-evoked vasoconstrictor responses produced by the combination of 0.1 microM angiotensin II and 0.01 microM losartan. 5. The potentiation by losartan (0.01 microM) of the facilitatory effect of 0.1 microM angiotensin II on S-I efflux and on stimulation-evoked vasoconstriction was still observed in the presence of either the cyclooxygenase inhibitor indomethacin (3 microM), or the nitric oxide synthase inhibitor N omega-nitro-L-arginine methyl ester (L-NAME, 100 microM). 6. The findings confirm our previous suggestion that, in the rat caudal artery, angiotensin II receptors similar to the AT1B subtype subserve enhancement of transmitter noradrenaline release. 7. The synergistic prejunctional interaction of 0.01 microM losartan and 0.1 microM angiotensin II may be due to either the unmasking by losartan of a latent population of angiotensin II receptors also subserving facilitation of transmitter noradrenaline release, or alternatively, losartan may block an inhibitory action of angiotensin II on transmitter noradrenaline release which normally opposes its facilitatory effect.
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PMID:Multiple prejunctional actions of angiotensin II on noradrenergic transmission in the caudal artery of the rat. 892 48

The angiotensin AT2 receptor modulates renal production of cyclic guanosine 3',5'-monophosphate (cGMP; J. Clin. Invest. 1996. 97:1978-1982). In the present study, we hypothesized that angiotensin II (Ang II) acts at the AT2 receptor to stimulate renal production of nitric oxide leading to the previously observed increase in cGMP. Using a microdialysis technique, we monitored changes in renal interstitial fluid (RIF) cGMP in response to intravenous infusion of the AT2 receptor antagonist PD 123319 (PD), the AT1 receptor antagonist Losartan, the nitric oxide synthase (NOS) inhibitor nitro--arginine-methyl-ester (-NAME), the specific neural NOS inhibitor 7-nitroindazole (7-NI), or Ang II individually or combined in conscious rats during low or normal sodium balance. Sodium depletion significantly increased RIF cGMP. During sodium depletion, both PD and -NAME caused a similar decrease in RIF cGMP. Combined administration of PD and -NAME decreased RIF cGMP to levels observed with PD or -NAME alone or during normal sodium intake. During normal sodium intake, Ang II caused a twofold increase in RIF cGMP. Neither PD nor -NAME, individually or combined, changed RIF cGMP. Combined administration of Ang II and either PD or -NAME produced a significant decrease in RIF cGMP compared with that induced by Ang II alone. Combined administration of Ang II, PD, and -NAME blocked the increase in RIF cGMP produced by Ang II alone. During sodium depletion, 7-NI decreased RIF cGMP, but the reduction of cGMP in response to PD alone or PD combined with 7-NI was greater than with 7-NI alone. During normal sodium intake, 7-NI blocked the Ang II-induced increase in RIF cGMP. PD alone or combined with 7-NI produced a greater inhibition of cGMP than did 7-NI alone. During sodium depletion, 7-NI (partially) and -NAME (completely) inhibited RIF cGMP responses to -arginine. These data demonstrate that activation of the renin- angiotensin system during sodium depletion increases renal nitric oxide production through stimulation by Ang II at the angiotensin AT2 receptor. This response is partially mediated by neural NOS, but other NOS isoforms also contribute to nitric oxide production by this pathway.
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PMID:The subtype 2 (AT2) angiotensin receptor mediates renal production of nitric oxide in conscious rats. 921 2

This study examined the role of angiotensin II (Ang II) on the effects of nitric oxide (NO) synthesis blockade on renal cortical and papillary blood flow in innervated and denervated kidneys of volume-expanded Munich-Wistar rats with hormonal influences on the kidney that were held constant by intravenous infusion. Cortical (CBF) and papillary (PBF) blood flow were measured by laser-Doppler flowmetry. A low dose of N omega-nitro-L-arginine methyl ester (L-NAME, 3.7 nmol x kg[-1] x min[-1]) reduced CBF only in innervated kidneys, and this effect was abolished by subsequent administration of valsartan (an AT1 antagonist). L-NAME 3.7 nmol x kg(-1) x min(-1) improved PBF autoregulation by lowering PBF to the range of 100 to 140 mm Hg of perfusion pressure, and this effect was attenuated or abolished by valsartan in innervated and denervated kidneys, respectively. These results indicate that the cortical and medullary vasoconstriction induced by a low dose of L-NAME are caused by potentiation of the vasoconstrictor influence of renal sympathetic nerves and Ang II. A higher dose of L-NAME (37 nmol x kg[-1] x min[-1]) lowered CBF and PBF in both innervated and denervated kidneys. This effect of L-NAME on the cortical circulation was abolished by valsartan, but this AT1 antagonist had no effect on the medullary vasoconstriction produced by NO synthesis blockade. Therefore, a higher dose of L-NAME induces a renal cortical vasoconstriction through potentiation of the renin-angiotensin system, whereas the fall of PBF seen after L-NAME 37 nmol x kg(-1) x min(-1) seems to be caused primarily by NO suppression. This Ang II potentiation produced by L-NAME in the renal cortex seems to be mediated by AT1 receptors, because it was unaffected by PD123319 (an AT2 antagonist). The results of the present study indicate that NO is an important modulator of the vasoconstrictor influence of Ang II in the renal cortical circulation of the rat. However, although there are some interactions between NO and renal nerves and Ang II on the medullary circulation, the renal medullary vasoconstriction produced by L-NAME appears to be caused primarily by NO suppression, with little influence of the renal vasoconstrictor systems.
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PMID:Interactions between nitric oxide and angiotensin II on renal cortical and papillary blood flow. 936 73

The present study examined the effect of an angiotensin II AT1 or AT2 receptor antagonist on the impairment of the pressure diuresis and natriuresis response produced by nitric oxide (NO) synthesis blockade. N omega-nitro-L-arginine methyl ester (L-NAME, 37 nmol.kg-1.min-1) lowered renal blood flow and reduced the slopes of the pressure diuresis and natriuresis responses by 44 and 40%, respectively. Blockade of AT1 receptors with valsartan increased slightly sodium and water excretion at low renal perfusion pressure (RPP). Blockade of AT2 receptors with PD-123319 had no effect on renal function. The administration of valsartan or PD-123319 to rats given L-NAME had no effect on the renal vasoconstriction induced by NO synthesis blockade. In addition, in rats given L-NAME, valsartan elevated baseline excretory values at all RPP studied, but it had no effect on the sensitivity of the pressure diuresis and natriuresis response. However, the administration of PD-123319 to L-NAME-pretreated rats shifted the slopes of the pressure diuresis and natriuresis responses toward control values, indicating that the impairment produced by NO synthesis blockade on pressure diuresis is dependent on the activation of AT2 angiotensin receptors.
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PMID:Effect of interactions between nitric oxide and angiotensin II on pressure diuresis and natriuresis. 937 9

1. Although the actions of angiotensin II (Ang II) on renal haemodynamics appear to be mediated by activation of the AT1 receptor subtype, AT2 binding sites have also been evidenced in the adult kidney vasculature. As NO is known to mask part of the renal effects of vasoconstrictor drugs, we queried whether the Ang II-induced vasoconstrictions could occur via multiple receptor subtypes during inhibition of NO synthesis. We explored the effect of AT1 and AT2 receptor (AT-R) antagonists on Ang II-induced pressure increases during NO synthase or soluble guanylyl cyclase inhibition in rat isolated kidneys perfused in the presence of indomethacin at constant flow in a single-pass circuit. 2. In the absence of NO blockade, the AT1-R antagonist L-158809 (500 nM) antagonized the Ang II-induced vasoconstrictions, while the AT2-R antagonist PD-123319 (500 nM) had no effect. 3. Perfusing kidneys in the presence of either NO synthase inhibitors, L-NAME (100 microM) or L-NOARG (1 mM), or soluble guanylyl cyclase inhibitor, LY-83583 (10 microM), significantly increased both molar pD2 (from 9.40+/-0.25 to 10.36+/-0.11) and Emax values (from 24.9+/-3.1 to 79.9+/-4.9 mmHg) of the concentration-response curve for Ang II-induced vasoconstriction. 4. In the presence of L-NAME, 500 nM L158809 abolished the Ang II-induced vasoconstrictions whatever the concentration tested. On the other hand, 500 nM PD-123319 reversed the left shift of the concentration-response curve for Ang II (molar pD2 value 9.72+/-0.13) leaving Emax value unaffected (91.3+/-7.6 mmHg). 5. In the presence of L-NAME, the potentiated vasoconstriction induced by 0.1 nM and the augmented vasoconstriction induced by 10 nM Ang II were fully inhibited in a concentration-dependent manner by L-158809 (0.05-500 nM). By contrast, PD-123319 (0.5-500 nM) did not affect the 10 nM Ang II-induced vasoconstriction and concentration-dependently decreased the 0.1 nM Ang II-induced vasoconstriction plateauing at 65% inhibition above 5 nM antagonist. 6. Similar to PD-123319, during NO blockade the AT2-R antagonist CGP-42112A at 5 nM decreased by 50% the 0.1 nM Ang II-induced vasoconstriction and at 500 nM had no effect on 10 nM Ang II-induced vasoconstriction. 7. In conclusion, the renal Ang II-induced vasoconstriction, which is antagonized only by AT1-R antagonist in the presence of endogenous NO, becomes sensitive to both AT1- and AT2-R antagonists during NO synthesis inhibition. While AT1-R antagonist inhibited both L-NAME-potentiated and -augmented components of Ang II-induced vasoconstriction, AT2-R antagonists inhibited only the L-NAME-potentiated component.
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PMID:AT2-antagonist sensitive potentiation of angiotensin II-induced vasoconstrictions by blockade of nitric oxide synthesis in rat renal vasculature. 942 1

In the present study we tested the hypothesis whether an angiotensin AT2 receptor-mediated stimulation of the bradykinin (BK)/nitric oxide (NO) system can account for the effects of AT1 receptor antagonism on aortic cGMP described previously in SHRSP. Adult SHRSP were treated for 4 hours with angiotensin II (ANG II) (30 ng/kg per min IV) or vehicle (0.9% NaCl I.V.). Animals were pretreated with vehicle, losartan (100 mg/kg P.O.), PD 123319 (30 mg/kg I.V.), losartan plus PD 123319, icatibant (500 microg/kg I.V.), N(G)-nitro-L-arginine methyl ester (L-NAME; 1 mg/kg I.V.), or minoxidil (3 mg/kg I.V.). Mean arterial blood pressure (MAP) was continuously monitored over the 4-hour experimental period, and plasma ANG II and aortic cGMP were measured by RIA at the end of the study. ANG II infusion over 4 hours raised MAP by about 20 mm Hg. Losartan alone or losartan plus ANG II as well as minoxidil plus ANG II markedly reduced blood pressure when compared to vehicle-treated or ANG II-treated animals, respectively. Plasma levels of ANG II were increased 2-fold by ANG II infusion alone or by ANG II in combination with icatibant, L-NAME, or minoxidil. The increase in plasma ANG II levels was even more pronounced after losartan treatment. Aortic cGMP content was significantly increased by ANG II, losartan, losartan plus ANG II, and minoxidil plus ANG II by 60%, 45%, 68%, and 52%, respectively (P<.05). The effects of ANG II and of losartan plus ANG II on aortic cGMP content were both blocked by cotreatment with the AT2 receptor antagonist PD 123319. Icatibant and L-NAME abolished the effects of ANG II on aortic cGMP. Our results demonstrate the following: (1) ANG II increases aortic cGMP by an AT2 receptor-mediated action because the effect could be prevented by an AT2 receptor antagonist; (2) the effect of ANG II was not secondary to blood pressure increase because it remained under reduction of MAP with minoxidil; (3) losartan increased aortic cGMP most likely by increasing plasma ANG II levels with a subsequent stimulation of AT2 receptors; and (4) the effects of AT2 receptor stimulation are mediated by BK and, subsequently, NO because they were abolished by B2 receptor blockade as well as by NO synthase inhibition.
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PMID:AT2 receptor stimulation increases aortic cyclic GMP in SHRSP by a kinin-dependent mechanism. 945 27

We measured the activity of mitogen-activated protein (MAP) kinases, enzymes believed to be involved in the pathway for cell proliferation, in rat aortic strips with or without endothelium, and examined effects of angiotensin receptor antagonists, endothelin receptor antagonists and nitric oxide (NO)-related agents. Endothelium removal produced an activation of MAP kinase activity in the strips, whereas the enzyme activity was not affected in the adventitia. The MAP kinase activation was inhibited by either the angiotensin AT1 receptor antagonist losartan or the endothelin ETA receptor antagonist BQ 123. The combination of both antagonists caused an additive inhibition. The angiotensin AT2 receptor antagonist PD 123,319 and the endothelin ETB receptor antagonist BQ 788 did not affect the MAP kinase activation. The NO synthase inhibitor NG-nitro-L-arginine methyl ester (L-NAME) caused an activation of MAP kinase in the endothelium-intact aorta and the MAP kinase activation was inhibited by losartan or BQ123. The NO releaser nitroprusside inhibited the MAP kinase activation induced by endothelium removal or angiotensin II. These results suggest that even in isolated arteries, NO of endothelial origin tonically exert MAP kinase-inhibiting effects and endogenous angiotensin II and endothelins in the media are tonically released to cause MAP kinase-stimulating effects in medial smooth muscle.
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PMID:Evidence that angiotensin II, endothelins and nitric oxide regulate mitogen-activated protein kinase activity in rat aorta. 965 1

1. We showed earlier that NO inhibition caused a left-shift and augmented Emax of the concentration-response curve of AT1-mediated (angiotensin II)-induced vasoconstrictions (AII-VC) in the rat kidney. The 0.01-0.1 nM AII-VC unmasked by the potentiating effect of NO inhibition, were sensitive not only to AT1 (L158809), but also to AT2 receptor (PD123319) antagonists. We now demonstrate the role of endothelium and eicosanoids in the NO-masked AT1/AT2-mediated component of the AII-VC in isolated indomethacin-perfused kidneys of the rat. 2. L-NAME increased 0.1 nM AII-VC 7.2 fold. Pretreatment of the kidneys with factor VIII antibody/complement or with the detergent CHAPS to damage endothelium, decreased carbachol-induced vasodilatation and blunted by 60 and 30% respectively, the enhancement of AII-VC during NO inhibition. 3. L-NAME also increased 3 microM noradrenaline (NA)-induced vasoconstriction (NA-VC) 8.1 fold. In contrast to AII-VC, endothelium damage was without effect on the enhancement of NA-VC by L-NAME, suggesting a dominant role of endothelium-derived NO in the enhancement of NA-VC. 4. During NO inhibition, ETYA (2 microM; an inhibitor of all arachidonic acid derived pathways) and alpha-naphtoflavone (10 microM; an inhibitor of the cytochrome P450 isozymes), decreased by 85% the 0.1 nM AII-VC. 5. In conclusion, during NO inhibition, the AT1-mediated constriction to low concentrations of AII, which is sensitive to AT2 antagonists, depends on intact endothelium, and can be blocked by inhibition of eicosanoid synthesis. The results suggest that the AII-mediated vasoconstriction through AT1 receptors is potentiated in the absence of NO, by the release of eicosanoids from the endothelium through AT2 receptors.
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PMID:AT2 antagonist-sensitive potentiation of angiotensin II-induced constriction by NO blockade and its dependence on endothelium and P450 eicosanoids in rat renal vasculature. 969 80

We recently reported that administration of Nomega-nitro-L-arginine methyl ester (L-NAME), an inhibitor of nitric oxide (NO) production, activates the vascular and cardiac renin-angiotensin systems and causes vascular thickening and myocardial hypertrophy in rats with perivascular and myocardial fibrosis. It has been reported that aldosterone may contribute to the development of cardiac fibrosis, but it is not known whether inhibition of NO synthesis affects angiotensin II (Ang II) receptor gene expression and aldosterone secretion. The aim of this study was to investigate the effect of NO inhibition on the expression of Ang II receptors in the adrenal gland and on aldosterone secretion in rats. Wistar King A rats received normal water, L-NAME alone (1 mg/mL in the drinking water), or L-NAME and the alpha1-adrenergic receptor blocker bunazosin (0.1 mg/mL in the drinking water) for 1 week. After 1 week of treatment with L-NAME, systolic blood pressure, plasma aldosterone concentration (PAC), and mRNA level and number of Ang II type 1 receptor (AT1-R) were increased. Plasma renin activity, serum angiotensin-converting enzyme activity, and the number of AT2-R were unchanged. Although addition of bunazosin to L-NAME restored systolic blood pressure to the control level, PAC and AT1-R numbers remained significantly higher than those of control level. These results suggest that the increased AT1-R number and PAC induced by the inhibition of NO synthesis were independent of blood pressure and systemic renin-angiotensin system. Therefore, hypertension and myocardial fibrosis induced by NO blockade may be due in part to an elevation of PAC caused by increased AT1-R in the adrenal gland.
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PMID:Regulation of angiotensin II receptor expression by nitric oxide in rat adrenal gland. 974 Jun 21

It has been shown that nitric oxide (NO) may regulate angiotensin II (Ang II) receptors in vitro. To determine whether the chronic inhibition of NO synthesis upregulates cardiac Ang II receptors in a rat model, we evaluated the in vivo effect of Nomega-nitro-L-arginine methyl ester (L-NAME) on several Ang II receptors and on the expression of AT1 receptor mRNA in heart tissue. The chronic administration of L-NAME to normal rats increased the arterial blood pressure. The number of AT1 and AT2 receptors was increased, with no change in affinity, during the first week of L-NAME administration but returned to control levels after 4 weeks of treatment. The AT1 receptor mRNA was changed parallel to AT1 receptor number. Inflammatory changes (monocyte infiltration and myofibroblast formation) in perivascular areas surrounding coronary vessels and myocardial interstitial spaces were observed during the first week. The immunohistochemistry revealed that myofibroblasts expressed AT1 receptor. AT1 receptor blockade or cotreatment with L-arginine, but not cotreatment with hydralazine, prevented the L-NAME-induced increase in Ang II receptors and inflammatory changes. In conclusion, rat cardiac Ang II receptors are upregulated at an early phase of chronic inhibition of NO synthesis. This may contribute to cardiovascular inflammatory changes in an early phase and to remodeling at the later phase, which occurs after inhibition of NO synthesis.
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PMID:Cardiac angiotensin II receptors are upregulated by long-term inhibition of nitric oxide synthesis in rats. 975 45

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