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)

NG-nitro-L-arginine methyl ester (L-NAME) and 11-desoxycorticosterone plus salt intake (DOCA-salt) hypertensive rat models were compared to study the possible involvement of model-specific factors in the development of renal angiopathy and left ventricular hypertrophy (LVH). Blood pressure was measured in L-NAME, DOCA-salt hypertensive, and control Wistar rats, and the lesions of nephroangiosclerosis and left ventricular hypertrophy were evaluated after 7 weeks. Arterial wall cyclic guanosine monophosphate, plasma renin activity (PRA), and renal renin storage were assessed in parallel. For the same level of hypertension in the two models, the renal arterial fibrinoid necrotic lesions were significantly more frequent in L-NAME than in DOCA-salt hypertensive rats. In DOCA-salt hypertensive rats, PRA was decreased and arterial cGMP increased compared to controls. In the L-NAME model, arterial cGMP decreased and PRA showed a bimodal distribution in this intermediate stage of hypertensive disease. LVH was observed in DOCA-salt rats and only in the L-NAME rats with a high level of PRA. There was a close correlation between the lesions of nephroangiosclerosis, left ventricular index, and plasma renin activity in L-NAME rats. We therefore suggest that the activation of the renin-angiotensin system participates specifically in the development of the second stage of hypertension during chronic blockade of NO synthase involving nephroangiosclerosis and LVH.
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PMID:Renal hypertensive angiopathy. Comparison between chronic NO suppression and DOCA-salt intoxication. 775 45

The involvement of spinal cord nitric oxide (NO) in the development of autotomy, a proposed behavioral model of denervation pain, was studied in sciatic and saphenous nerves transected rats injected intrathecally, 10-15 min prior to neurectomies, with NG-nitro-L-arginine methyl ester (L-NAME, 20-500 nmol), NG-nitro-D-arginine methyl ester (D-NAME, 500 nmol), L- or D-arginine (5 mumol), and 8-bromoguanosine 3':5'-cyclic monophosphate sodium salt (8-Br-cGMP, 100 and 200 nmol). Self-inflicted lesions were scored daily for 8 weeks. The main effects on autotomy were: (1) a significant suppression in rats injected with L-NAME (500 nmol), but not with D-NAME; (2) a significant potentiation after L-arginine, but not D-arginine; and (3) a significant potentiation with 8-Br-cGMP, which was blocked by co-administration of L-NAME. These findings indicate that autotomy in rats can be modulated by blocking or enhancing nitroxidergic transmission at lumbosacral level, and suggest new therapeutic approaches for the prevention of certain pain syndromes, such as phantom limb pain.
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PMID:Nitric oxide mediates neuropathic pain behavior in peripherally denervated rats. 778 79

Endothelium-derived nitric oxide (EDNO) and angiotensin II play a role in the regulation of vascular tone and sodium handling. The objective of this study was to determine the role played by angiotensin II in mediating the arterial pressure and renal response to increments in sodium intake during chronic EDNO inhibition. Six groups of Wistar rats were studied; they were fed either a normal sodium diet (groups I, II, and III) or a high sodium diet (groups IV, V and VI). Rats in groups II, III, V and VI were placed on oral L-N-nitroarginine-methyl ester (L-NAME) for 4 weeks. In groups III and VI, the angiotensin II receptor antagonist, TCV-116, was administered. A significant increase in blood pressure was observed in group V compared with group II at the end of the experimental period. TCV-116 attenuated the L-NAME-induced hypertension in both group III and group VI. Urinary protein excretion and the glomerular sclerotic injury score in group V were greater than in group II. TCV-116 attenuated the proteinuria and glomerular injury induced by chronic EDNO inhibition in the groups with normal (group III) and high sodium intake (group IV). Systemic hypertension and glomerular injury were enhanced by salt loading during EDNO inhibition, and the angiotensin II receptor antagonist, TCV-116, attenuated this salt-induced increase in blood pressure and renal injury, suggesting that EDNO may counteract the renal effects of angiotensin II.
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PMID:Enhancement of hypertension and renal injury by salt-loading during chronic nitric oxide inhibition. Effects of TCV-116, a novel angiotensin II receptor antagonist. 788 7

1. The purpose of this study was to characterize the effect of NG-nitro-L-arginine methyl ester (L-NAME) on the perfusion rate/pressure relations, and on the pressor responses induced to cirazoline and KCl in isolated, perfused mesenteric arterial beds from normotensive and spontaneously hypertensive rats. 2. The basal perfusion pressure of arterial beds perfused with either physiological salt solution (PSS) or PSS containing 1% polyvinylpyrrolidone increased as the perfusion rate increased. L-NAME, in concentrations up to 100 microM, failed to alter the basal pressure regardless of the perfusion rate and viscosity; however, at 5 microM, it potentiated cirazoline-induced vasoconstriction at each of the perfusion rates. 3. L-NAME but not D-NAME caused a leftward shift of cirazoline concentration-response curves with a marked increase in the maximal response. The potentiating action of L-NAME was abolished in arterial beds perfused with a Ca(2+)-free physiological salt solution and also in beds denuded of endothelium by an infusion of distilled water for 5 min. 4. In endothelium-intact and -denuded preparations, L-NAME potentiated KCl pressor responses; the endothelium-independent potentiation of KCl pressor activity was stereospecific, time-independent and was not prevented by the presence of dexamethasone (0.5 microM) in the perfusion medium. However, L-NAME failed to potentiate vasoconstriction obtained to KCl in arterial beds denervated by cold storage (4-5 degrees C) for 2 days. 5. The absence of K+ in the perfusate did not inhibit the ability of L-NAME to potentiate alpha-adrenoceptor-mediated pressor responses, and nor did L-NAME inhibit KCl-induced vasodilatation in preconstricted arteries. It was thus concluded that L-NAME does not affect Na+/K(+)-ATPase activity. 6. No differences in the potentiating ability of L-NAME on either cirazoline- or KCl-mediated pressor responses were apparent between normotensive Sprague Dawley (SD), Wistar Kyoto (WKY) and spontaneously hypertensive (SHR) rats.7. Our data thus provide evidence that: the presence of a vasoconstrictor is required for basal nitricoxide (NO) release in the mesenteric arterial bed from either normotensive or spontaneously hypertensive rats; L-NAME causes potentiation of cirazoline- and KCl-induced vasoconstriction respectively by inhibiting endothelial and neuronal NO synthase(s). Furthermore, our data indicate that NO synthase activity is not impaired in the mesenteric arterial bed of spontaneously hypertensive rats.
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PMID:The effects of perfusion rate and NG-nitro-L-arginine methyl ester on cirazoline- and KCl-induced responses in the perfused mesenteric arterial bed of rats. 791 52

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 this study was to examine the influence of vascular endothelium on the relaxation induced by increased extracellular Mg2+ concentrations on isolated and noradrenaline-precontracted aorta from deoxycorticosterone acetate-salt (DOCA-salt) hypertensive and normotensive rats. In Mg(2+)-free physiologic salt solution (PSS), addition of Mg2+ (0.1-6.0 nM) caused concentration-dependent relaxation of noradrenaline-precontracted aorta with intact or disrupted endothelium. Mg(2+)-induced relaxation in intact aorta, however, was less in DOCA-salt hypertensive rats than in normotensive rats. When endothelium was disrupted, Mg(2+)-induced relaxation was depressed in aorta from both DOCA-salt hypertensive and normotensive rats. The same observations were made in presence of N-nitro-L-arginine methyl ester (L-NAME), an inhibitor of endothelium-derived relaxing factor nitric oxide (EDRF/NO) biosynthesis. Mg(2+)-induced relaxation following contraction with noradrenaline was significantly less in intact aorta treated with L-NAME from DOCA-salt hypertensive rats than in intact aorta from normotensive rats. Indomethacin did not affect Mg(2+)-induced relaxation in intact aorta from normotensive rats whereas indomethacin significantly increased it in DOCA-salt hypertensive rats. It is concluded that (1) Mg(2+)-induced relaxation can be mediated by endothelium-dependent mechanisms implicating EDRF/NO; (2) the influence of EDRF/NO is more pronounced on the impaired Mg(2+)-induced relaxation of aorta from DOCA-salt hypertensive rats; (3) Mg(2+)-induced relaxation seems masked by vasoconstrictor prostaglandin release in DOCA-salt hypertensive rats; (4) these differences between normotensive and hypertensive rats could be related to the impaired endothelial function in aorta from DOCA-salt hypertensive rats.
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PMID:Influence of endothelium on Mg(2+)-induced relaxation in noradrenaline-contracted aorta from DOCA-salt hypertensive rat. 808 52

Chronic nitric oxide (NO) inhibition promotes hypertension and ischemic glomerular injury with only minor glomerulosclerosis (GS). We evaluated the effect of superimposed salt overload, which has been shown to aggravate GS in other models. Fifteen days of treatment with the NO inhibitor N omega-nitro-L-arginine methyl ester (L-NAME) promoted marked arterial and glomerular hypertension, hyporeninemia, and slight renal interstitial expansion, but no glomerular injury. Salt overload slightly exacerbated systemic and glomerular hypertension, promoted albuminuria, interstitial expansion, and glomerular ischemia, and paradoxically reversed hyporeninemia. The angiotensin II inhibitor losartan attenuated glomerular and systemic hypertension and prevented renal injury in these rats. Thirty days of treatment with L-NAME resulted in marked hypertension, hyperreninemia, interstitial expansion, and glomerular ischemia. Concomitant salt overload exacerbated hypertension, interstitial expansion, and ischemia and promoted massive albuminuria, GS, and creatinine retention. Losartan attenuated these effects. Sodium overload aggravates the renal and systemic consequences of chronic NO inhibition by mechanisms that may include paradoxical activation of renin secretion. Interstitial expansion and glomerular ischemia, rather than GS, constitute the chief modalities of renal injury in this model.
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PMID:Sodium excess aggravates hypertension and renal parenchymal injury in rats with chronic NO inhibition. 820 52

We contrasted in normotensive and hypertensive rats the effect of inhibition of nitric oxide synthesis on isometric tension development by aortic rings bathed in Krebs' bicarbonate buffer. NG-Nitro-L-arginine methyl ester (L-NAME) (3 x 10(-4) mol/L) increased tension (82 +/- 11% of the response to 120 mmol/L potassium chloride) in rings of thoracic aorta taken from hypertensive rats 7 to 14 days after aortic coarctation, whereas rings of abdominal aorta from below the coarctation were unresponsive, as were rings of thoracic aorta from rats with deoxycorticosterone-salt-induced hypertension and from the corresponding normotensive controls of either model of hypertension. The contractile response to L-NAME in aortic rings of rats with aortic coarctation was reversed by L-arginine (1 mmol/L), attenuated by removal of the endothelium, and blunted by the protein kinase C inhibitor staurosporine but was unaffected by inhibition of cyclooxygenase, scavengers of superoxide anion, or blockade of receptors for angiotensin, norepinephrine, serotonin, or endothelin. In additional experiments we contrasted the effect of L-NAME (10 mg/kg IV) on the blood pressure of sham-operated rats and rats with aortic coarctation after pretreatment of animals in both groups with DuP 753 (30 mg/kg IV) to achieve blood pressure equalization. The pressor response to L-NAME was twofold greater in rats with aortic coarctation than in sham-operated controls. That pressor and aortic constrictor responsiveness to L-NAME are increased after aortic coarctation suggests that a mechanism of vasodilation, mediated by nitric oxide, is preferentially manifested in rats with aortic coarctation-induced hypertension.
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PMID:Vascular responsiveness to nitric oxide synthesis inhibition in hypertensive rats. 820 72

This study evaluated the influence of high dietary salt intake on nitric oxide (NO) activity in the arteriolar network of rats resistant to salt-induced hypertension. The spinotrapezius muscle microvasculature was studied in inbred Dahl salt-resistant (SR/Jr) rats fed low (0.45%)- or high (7%)-salt diets for 4-5 wk. Arterial pressures were not different between groups at any time during the study. NO synthesis inhibition with NG-nitro-L-arginine-methyl ester (L-NAME) constricted arcade arterioles in low-salt SR/Jr and dilated arcade arterioles in high-salt SR/Jr. Arcade arteriole dilation to acetylcholine (ACh), but not sodium nitroprusside (SNP), was impaired in high-salt SR/Jr. In contrast, transverse and distal arteriole responses to L-NAME, ACh, and SNP were identical in high- and low-salt SR/Jr. These findings indicate that high salt intake, in the absence of increased arterial pressure, suppresses the influence of basal and evoked NO on vascular tone in arcading arterioles, but not in smaller transverse and distal arterioles. Unaltered SNP responses in high-salt SR/Jr suggest that this effect does not involve a change in arteriolar smooth muscle responsiveness to NO.
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PMID:Effect of dietary salt on arteriolar nitric oxide in striated muscle of normotensive rats. 832 9

Inhibition of nitric oxide synthase by L-arginine analogues is associated with elevation of blood pressure in rats. Deoxycorticosterone acetate (DOCA)-salt hypertensive rats and DOCA-salt-treated spontaneously hypertensive rats (SHR) overexpress the endothelin-1 gene in blood vessels, and this is associated with severe vascular hypertrophy, whereas SHR do not overexpress endothelin-1 and exhibit limited vascular hypertrophy. In this study malignant hypertension was induced in SHR by chronic administration of the L-arginine analogue NG-nitro-L-arginine methyl ester (L-NAME), a potent inhibitor of nitric oxide synthase, to determine whether malignant hypertension would result in endothelin-1 gene overexpression in blood vessels and in greater severity of vascular hypertrophy, as found in malignant DOCA-salt-treated SHR. L-NAME treatment induced malignant hypertension in SHR, with a systolic blood pressure of 246 +/- 2 mm Hg, compared with 211 +/- 2 mm Hg (P < .01) in untreated SHR. Plasma renin activity was very high in L-NAME-treated SHR, and their plasma immunoreactive endothelin concentration was slightly but significantly elevated (P < .01). After 3 weeks of treatment, aortic and to a lesser degree mesenteric artery weights were significantly increased in L-NAME-treated SHR compared with untreated SHR. However, cardiac weight and the media cross-sectional area or media width-to-lumen diameter ratio of small arteries from the coronary, renal, mesenteric, or femoral vasculature were not increased in L-NAME-treated SHR in comparison with untreated SHR. The abundance of endothelin-1 mRNA measured by Northern blot analysis was significantly increased in L-NAME-treated SHR in aorta and with less magnitude in the mesenteric arterial tree. The absence of accentuation of cardiac and small artery hypertrophy in malignant hypertension in L-NAME-treated SHR, despite enhanced expression of the endothelin-1 gene in blood vessels, may suggest a direct or indirect inhibitory effect of L-NAME on cardiovascular growth, probably independent of its effects on nitric oxide synthase, counterbalanced in aorta and large mesenteric arteries by the hypertrophic effect of enhanced vascular endothelin-1 gene expression. These results also suggest a role for blood pressure and potentially for nitric oxide in the regulation of endothelin-1 gene expression in blood vessels.
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PMID:Vascular structure and expression of endothelin-1 gene in L-NAME-treated spontaneously hypertensive rats. 859 87


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