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

A possible role of the endothelial L-arginine/NO pathway in the control of renal hemodynamics, renin release and kallikrein secretion was studied in an isolated rat kidney model perfused in a closed-circuit. NG-nitro-L-arginine methyl ester (L-NAME, 1-50 microM), an inhibitor of nitric oxide biosynthesis, caused a dose-dependent increase in perfusion pressure (PP) and a dose-dependent decrease in renal perfusate flow. Renin release was inhibited independently of a rise in PP. L-NAME did not change the urinary kallikrein secretion. These results confirm the intervention of the L-arginine/NO pathway in the vasodilation of this isolated perfused kidney model and demonstrate the inhibitory effect of L-NAME on renin release. They suggest that nitric oxide synthesis plays a role in stimulating renin release and is not involved in the regulation of urinary kallikrein secretion.
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PMID:Decreased renin release and constant kallikrein secretion after injection of L-NAME in isolated perfused rat kidney. 155 26

This study was designed to examine the possible involvement of prostaglandins and nitric oxide (NO) in the renin stimulatory effect of angiotensin II (AngII) antagonists. To this end, plasma renin activities (PRAs) and renal renin mRNA levels were assayed in rats that were treated with the Ang-converting enzyme inhibitor ramipril or with the AngII AT1-receptor antagonist losartan. Ramipril and losartan increased PRA values from 7.5 +/- 1.6 to 86 +/- 6 and 78 +/- 22 ng of AngI per h per ml and renin mRNA levels from 112 +/- 9% to 391 +/- 20% and 317 +/- 10%, respectively. Inhibition of prostaglandin formation with indomethacin did not influence basal or ramipril-affected PRA. Basal renin mRNA levels also were unchanged by indomethacin, while increases in renin mRNA levels after ramipril treatment were slightly reduced by indomethacin. Inhibition of NO synthase by nitro-L-arginine methyl ester (L-NAME) reduced PRA values to 3.2 +/- 0.9, 34 +/- 13, and 12.1 +/- 2.7 ng of AngI per h per ml in control, ramipril-treated, and losartan-treated animals, respectively. Renin mRNA levels were reduced to 77 +/- 14% under basal conditions and ramipril- and losartan-induced increases in renin mRNA levels were completely blunted after addition of L-NAME. The AngII antagonists, furthermore, induced an upstream recruitment of renin-expressing cells in the renal afferent arterioles, which was also blunted by L-NAME. These findings suggest that renin mRNA levels are tonically increased by NO and that the action of NO is counteracted by AngII.
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PMID:Tonic stimulation of renin gene expression by nitric oxide is counteracted by tonic inhibition through angiotensin II. 764 29

The intervention of the L-arginine-NO pathway in renal vasodilation and renin secretion was studied in an isolated perfused rat kidney model. NG-nitro-L-arginine methyl ester (L-NAME, 1-25 microM), an inhibitor of nitric oxide (NO) synthesis, caused a dose-dependent increase in perfusion pressure (PP) and a dose-dependent decrease in renal perfusate flow. Renin was inhibited independently of the rise in PP, since the effect of L-NAME on renin release was the same when PP was maintained constant. Exposure of rats to low [salt depleted (SD)] or high [salt repleted (SR)] salt intake for 1 mo influenced the renal vascular response to L-NAME (3 microM). Isolated SR rat kidney vasculature vasoconstricted to a greater extent after inhibition of NO synthase than did that of SD kidneys. A similar fall in renin release was observed after L-NAME in both groups, despite a higher renin secretion rate in SD than in SR rats. These results suggest that NO-dependent vasodilation counteracts the renal vasoconstrictor effect of sodium loading.
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PMID:Influence of sodium diet on L-NAME effects on renin release and renal vasoconstriction. 797 83

The aim of the present study was dual: first to establish that a preparation of afferent arterioles freshly isolated from the rat kidney is a suitable model to study renin release and synthesis, and second to investigate the effect(s) of nitric oxide (NO) inhibition on renin release in this model. Purification of renal microvessels was based on iron oxide infusion into the kidneys and separation of the afferent arterioles from glomeruli and connective tissue with a magnet. These microvessels express preprorenin mRNA, contain renin granules and release renin as evidenced by RT-PCR, immunocytochemistry and measurement of renin activity, respectively. Renin secretion was increased in isolated afferent arterioles after in vivo treatment with the diuretic furosemide (+300%) or in vitro treatment with the adenylyl cyclase activator forskolin (+50%), indicating that this vascular preparation responds appropriately to regulators of the renin-angiotensin system. Furthermore, in afferent arterioles isolated from control rats, renin release was positively correlated with total renin content (r = 0.85). In afferent arterioles isolated from rats chronically treated with the NO-synthase inhibitor NG-nitro-L-arginine methyl ester (L-NAME), forskolin was ineffective in modifying renin release despite stimulation of cAMP levels. In addition, the correlation between renin release and tissue renin content was disrupted. Similar results were obtained when cortical slices were used instead of afferent arterioles, suggesting that this defect in the regulation of renin release is independent of the presence of macula densa cells. To verify that the lack of regulation of renin release after L-NAME treatment was due to NO inhibition, the NO donor 3-morpholino-syndonimin-hydrochloride (SIN-1) was administered in afferent arterioles or cortical slices from kidneys of L-NAME-treated rats. In both preparations, SIN-1 reversed the L-NAME effect and re-established the responsiveness of renin release to forskolin and the relationship between renin release and renin content. These data indicate that the adenylyl cyclase-mediated mechanism regulating renin release is impaired when NO synthesis is inhibited.
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PMID:Regulation of renin release is impaired after nitric oxide inhibition. 864 2

We evaluated pressure-dependent stimulation of renin release in rats with sustained hypertension induced by chronic blockade of nitric oxide synthase with N omega-nitro-L-arginine methyl ester (L-NAME) for 5 to 7 days. Rats were anesthetized and catheters were inserted into the carotid artery and abdominal aorta for measurement of arterial pressures. An adjustable snare was placed around the suprarenal aorta, and this snare was tightened to reduce renal perfusion pressure. Pressure-dependent renin release was evaluated in hypertensive rats by reducing renal perfusion pressure to 125, 85, and 65 mm Hg. Renin release was also evaluated in normotensive control rats at these same pressures. Basal systemic arterial pressures averaged 159 +/- 3 and 124 +/- 4 mm Hg (P < .001), respectively, in the L-NAME-treated (n = 22) and normotensive control (n = 18) rats. Basal plasma renin activity was lower in L-NAME than control rats (5.0 +/- 0.3 versus 9.5 +/- 1.3 U, P < .01), and plasma renin activity was markedly attenuated at all comparable levels of renal perfusion pressure. Maximal plasma renin activity levels were achieved at perfusion pressures reduced to 65 mm Hg, and plasma renin activity averaged 14 +/- 2 and 34 +/- 7 U (P < .01) in L-NAME hypertensive and control rats, respectively. However, infusion of the nitric oxide donor sodium nitroprusside similarly stimulated plasma renin activity levels to 39 +/- 3 and 45 +/- 3 U (P > .05), in the hypertensive and normal control groups, respectively. Overall, these findings are consistent with the hypothesis that prolonged L-NAME administration attenuates pressure-dependent renin release by inhibiting nitric oxide formation, which may function as a paracrine mechanism inversely linking renal perfusion pressure with the stimulation of renin release.
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PMID:Pressure-dependent renin release during chronic blockade of nitric oxide synthase. 890 17

Renin angiotensin system (RAS) in the central nervous system participates in the processing of sensory information, learning and memory processes. Inhibitors of RAS, particularly angiotensin converting enzyme (ACE) inhibitors and angiotensin II (Ang II) receptor antagonists are reported to have potential nootropic effects in various learning and memory paradigms. The neurochemical basis underlying nootropic effect of ACE inhibitors are unclear due to wide range of substrate for this enzyme. In this study, we compared the effect of ACE inhibitor captopril and a selective AT(1)receptor antagonist losartan in a step-up shock avoidance (active avoidance) task. Captopril (5-10 mg/kg) but not losartan (5-10 mg/kg) improved learning in the second trial of the acquisition test. However, both these drugs were equally effective in enhancing retention of memory when administered prior to training. Retention enhancing effect of captopril and losartan were reversed by post-acquisition test administration of L-NAME (15 mg/kg), dizocilpine (0.05 mg/kg) and scopolamine (0.1 mg/kg). On the basis of above observations, it is concluded that decrease in endogenous Ang II activity in the brain might result in improved cognitive performance by enhancing cGMP pathways. However facilitation of acquisition only by captopril may be due to other putative mechanisms.
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PMID:Comparative studies on the memory-enhancing actions of captopril and losartan in mice using inhibitory shock avoidance paradigm. 1134 12

We investigated a possible contribution of nitric oxide (NO) and prostaglandins to the inhibitory effect of losartan on contractions to Ang I (10(-6) M) and Ang II (10(-7) M) with or without L-NAME (10(-4) M) or indomethacin (10(-5) M) in the aorta of WKY, SHR and hamster (n=7 each). Rings of thoracic aorta (2-mm long) were placed in a myograph (5 ml). Endothelium-dependent vasodilations were evaluated with acetylcholine (10(-8) to 10(-6) M). After a 45-minute incubation with L-NAME under a resting tension of 2 g, only hamster aorta contracted (p<0.01). The SHR aorta showed impaired relaxations to acetylcholine compared with the WKY and hamster aorta (p<0.05). Despite the difference in the stimulated NO release, losartan completely abolished the responses to Ang I and Ang II both in WKY and SHR vessels irrespective of the presence of L-NAME. In contrast to the rat aorta, the inhibitory effect of losartan was attenuated in the presence of L-NAME in the hamster aorta (78% vs 99% inhibition, p<0.05). Indomethacin did not alter the effect of losartan in any vessels. Our results suggest that the presence of NO, particularly a basal secretion of NO, is necessary for the full expression of the inhibitory effect of losartan in the hamster, but not in WKY or SHR, aorta. Unlike NO, prostaglandins do not appear to play a role in the effect of losartan.
J Renin Angiotensin Aldosterone Syst 2000 Jun
PMID:Nitric oxide mediates inhibitory effect of losartan on angiotensin-induced contractions in hamster but not rat aorta. 1196 11

We compared the phenotype of two common mouse models, C-57BL/6J (C57), which carries only the Ren-1c gene, and 129/SvJ (Sv-129), with both Ren 1d and Ren-2. We hypothesized two renin gene Sv-129 would have increased blood pressure and the renin-angiotensin system would be more influential in regulating renal function compared with one renin gene mice. Sv-129 consistently had higher blood pressure than C-57, whether conscious (128 versus 108 mm Hg, P<0.001) or anesthetized (102 versus 88 mm Hg, P<0.001). Plasma renin concentration in both conscious and anesthetized C-57 mice was 3- to 4-fold higher than in Sv-129 (P<0.05), whereas renal cortical renin content was 2.5-fold higher (P<0.005). Renal blood flow and renal vascular resistance were the same in C-57 and Sv-129. Exogenous angiotensinogen produced identical pressor and renal vasoconstrictor responses in both strains. Blocking AT1 receptors with losartan reduced blood pressure by 19 mm Hg in both strains. Nitric oxide synthase inhibition by l-NAME increased blood pressure by 29 mm Hg in C-57 and 35 mm Hg in Sv-129 mice, but the decrease in renal blood flow was 30% less in C-57 (P<0.025). We conclude that Sv-129 mice with two renin genes have higher blood pressure but lower plasma and renal renin than C-57 mice with one renin gene. Renin substrate may limit angiotensin II production in the mouse. In Sv-129, the influence of nitric oxide on renal but not systemic resistance may be exaggerated. Renin from Ren-2 may act independently of normal renin control mechanisms.
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PMID:Cardiovascular and renal phenotype in mice with one or two renin genes. 1466 50

Adrenomedullin (ADM), a ubiquitous vasoactive peptide, has been the target of a multitude of studies concerning its effect on the vascular tone. The present work aims at clarifying a series of its interactions with the renin-angiotensin system. The study uses the rat aorta ring as a model of conductance vessels, with or without vascular endothelium, and the second order branch of rat mesenteric arteries as a model of resistance arteries. Interactions between various concentrations of ADM and angiotensin II (Ang II) were studied, in the presence of L-NAME (a nitric oxide [NO] synthase inhibitor) and methylene blue (MB; a soluble guanylate cyclase inhibitor). Results point out differences in the mechanism of the inhibitory action of ADM upon Ang II effects in the two vessel types studied. Inhibition of Ang II contraction by ADM involves guanylate cyclase in both cases. However, NO is involved in ADM-induced inhibition of angiotensinergic vasoconstriction only in the conductance arteries, not in the resistance ones.
J Renin Angiotensin Aldosterone Syst 2004 Jun
PMID:Comparative study of the inhibitory effects of adrenomedullin on angiotensin II contraction in rat conductance and resistance arteries. 1529 19

Renin-angiotensin and endothelin systems are involved in the cardiovascular effects produced by treatment with ouabain. We recently demonstrated that the contractile response to phenylephrine is decreased in ouabain-treated rats. The present study investigated whether endothelin-1 (ET-1) and angiotensin II (Ang II) contributes to the vascular changes observed in rats chronically treated with ouabain. Wistar rats were treated with ouabain (8.0 microg day(-1), s.c. pellets for 5 weeks) alone or in combination with an endothelin type A receptor (ET(A)) antagonist, BMS182874 (40 mg kg(-1) day(-1), per gavage) or an angiotensin type 1 (AT(1)) receptor antagonist, losartan (15 mg kg(-1) day(-1), p.o.). Treatment with ouabain increased systolic blood pressure and treatment with either losartan or BMS182874 prevented the development of ouabain-induced hypertension. The sensitivity and maximal response for phenylephrine were reduced in aortic rings from ouabain-treated rats. Removal of the endothelium or in vitro exposure to an inhibitor of nitric oxide synthase (NOS), N-nitro-L-arginine methyl ester (L-NAME, 100 microM) increased the responses to phenylephrine, an effect that was more pronounced in aortas from ouabain-treated rats. Endothelial NOS protein (eNOS) expression was increased after ouabain treatment. Treatment with BMS182874, but not with losartan, prevented the effects of ouabain on the reactivity of phenylephrine and in eNOS protein expression. Gene expression of pre-pro-ET-1 and ET(A) receptors was increased in aortic rings from ouabain-treated rats. ET(B) receptor gene expression was not altered by ouabain treatment. In conclusion, our results suggest that endothelin and angiotensin systems play an important role in the development of ouabain-induced hypertension. However, ET-1, by activation of ET(A) receptors, but not Ang II, contributes to changes in vascular reactivity to phenylephrine induced by chronic treatment with ouabain.
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PMID:Contribution of the endothelin and renin-angiotensin systems to the vascular changes in rats chronically treated with ouabain. 1547 25


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