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. Male, homozygous Brattleboro (i.e. vasopressin-deficient) rats were chronically instrumented with pulsed Doppler flow probes and intravascular catheters, and were studied 5 h after a subcutaneous injection of an hyperoncotic solution of polyethylene glycol to render them hypovolaemic, and hence dependent on the renin-angiotensin system for maintenance of haemodynamic status. Pilot experiments showed that, in this model, primed infusion of perindoprilat (0.05 mg kg-1 bolus, 0.05 mg kg-1 h-1 infusion) or captopril (0.2 mg kg-1 bolus, 0.2 mg kg-1 h-1 infusion) just abolished the pressor effect of angiotensin I (120 pmol), and had similar initial hypotensive and renal hyperaemic vasodilator effects. 2. Perindoprilat had more sustained hypotensive, and mesenteric and hindquarters vasodilator effects than captopril in the presence of saline. In the presence of NG-nitro-L-arginine methyl ester (L-NAME 3 mg kg-1 h-1), the renal vasodilator effects of perindoprilat were unchanged, whereas the other haemodynamic effects of perindoprilat and captopril were reduced. Hence, in the presence of L-NAME, all haemodynamic effects of perindoprilat were greater than those of captopril. 3. The renal hyperaemic vasodilator effects of acetylcholine were abolished by L-NAME and by perindoprilat, and were markedly reduced by captopril. However, since perindoprilat and captopril caused such marked renal hyperaemic vasodilatation themselves, it is feasible this change in baseline status contributed to their effects. It is unlikely this could be a full explanation of the results, because the haemodynamic effects of lemakalim were unchanged under any experimental conditions. 4. Bradykinin alone, or in the presence of saline, caused mesenteric hyperaemic vasodilatation whereas, in the presence of perindoprilat or captopril, bradykinin caused marked renal and mesenteric vasoconstrictions. However, in the additional presence of L-NAME, the mesenteric vasoconstriction was reduced, yet the hypotensive effect of bradykinin was augmented. One possible explanation of these observations is that, in the presence of L-NAME and either perindoprilat or captopril, bradykinin caused marked coronary vasoconstriction, leading to a reduction in cardiac output. 5. Neither perindoprilat nor captopril impaired the pressor, or renal, mesenteric, or hindquarters vasoconstrictor effects of L-NAME. Indeed, in their presence, the effects of L-NAME were generally enhanced, consistent with perindoprilat and captopril causing activation of nitric oxide-dependent mechanisms that were subsequently inhibited by L-NAME.
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PMID:Involvement of nitric oxide in the regional haemodynamic effects of perindoprilat and captopril in hypovolaemic Brattleboro rats. 146 39

Endothelium-derived relaxing factor (EDRF), through its inhibitory second messenger guanosine 3',5'-cyclic monophosphate (cGMP), inhibits renin release in vitro. To determine whether EDRF affects renin in vivo, we tested whether EDRF synthesis inhibition could stimulate renin secretion in intact rats. Because EDRF synthesis inhibition increases blood pressure and consequently withdraws sympathetic activity (both renin inhibitory signals), we also studied the effect of L-N omega-nitroarginine methyl ester (L-NAME) when renal perfusion pressure was controlled and during beta-adrenergic blockade. Mean blood pressure (BP), heart rate (HR), and plasma renin activity (PRA) were measured in anesthetized rats before and after EDRF synthesis inhibition by a 10 mg/kg body wt bolus of L-NAME. L-NAME decreased PRA by 67% [from 11.0 +/- 2.7 to 3.7 +/- 0.8 ng angiotensin I (ANG I).ml-1.h-1, n = 12; P less than 0.001], increased BP by 20 +/- 2 mmHg (P less than 0.001), and decreased HR from 332 +/- 8 to 312 +/- 9 beats/min (P less than 0.005). We repeated our experiment in rats instrumented with an intra-aortic balloon catheter to control renal perfusion pressure and pretreated with propranolol to eliminate the beta-adrenergic effect. Under these conditions, L-NAME now increased PRA by 55% (from 6.9 +/- 1.9 to 10.8 +/- 2.6 ng ANG I.ml-1.h-1, n = 12; P less than 0.02), whereas renal perfusion pressure was unchanged (91 +/- 4 vs. 90 +/- 4 mmHg). HR increased slightly from 308 +/- 5 to 315 +/- 3 beats/min (P less than 0.005).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Endothelium-derived relaxing factor regulates renin release in vivo. 151 Jan 22

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

The vascular endothelium plays an essential role in regulating the contractility of the adjacent smooth muscle cell through its secretory and metabolic properties. One of these well known properties is the conversion of angiotensin I into angiotensin II. But the endothelium also secretes at least three compounds able to diffuse to the smooth muscle cell and exerting a paracrine action: these are the prostacyclin (PGI2), the endothelium derived relaxing factor (EDRF) and the endothelin 1. The secretion of these different vasoactive compounds by endothelial cells is triggered by mechanical events, such as the shear stress, or by the effect of several humoral factors locally released, for example from platelets. The compound NO (nitric oxide) is produced by the endothelial enzyme NO synthase from its precursor L-arginine, and is responsible for the vasodilatory and antiplatelets properties of EDRF. NO, by activating the soluble guanylate cyclase in the smooth muscle cell, is responsible for the endothelium dependent vasodilatation. We observed in an isolated perfused rat kidney that the compound L-NAME (NG-monomethyl-L-arginine methyl ester), a competitive inhibitor of NO synthase blocking the production of NO, induces renal vasoconstriction and inhibits renin release. This suggests that not only the renal vasoconstriction but also the renal vasodilatation are active processes, permanently regulated by vasoactive compounds such as EDRF. It seems also that EDRF plays an important role in maintaining the secretion of renin. It can be hypothetized that an abnormality in the release or fate of EDRF might perhaps contribute to high blood pressure, by both a direct effect on the vascular tone and an indirect effect on the release of renin, which in turn regulates also the renal and systemic hemodynamics.
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PMID:[Control of vascular tone by the endothelium: the coupling active vasodilation in the kidney to renin secretion]. 163 4

1 We investigated the peripheral haemodynamic effects of human alpha-calcitonin gene-related peptide (CGRP) following administration of endothelin-1 or NG-nitro-L-arginine methyl ester (L-NAME), an inhibitor of nitric oxide production, in conscious, chronically-instrumented, Long Evans rats. 2 Infusion of endothelin-1 (3 nmol kg-1 h-1) caused hypertension, bradycardia and renal, mesenteric and hindquarters vasoconstrictions. Co-infusion of human alpha-CGRP (1.5 nmol kg-1 h-1) reduced the hypertension and abolished the hindquarters vasoconstriction caused by endothelin-1 but the renal and mesenteric vasoconstrictor actions of endothelin-1 were not affected. 3 Infusion of human alpha-CGRP (15 nmol kg-1 h-1) in the presence of endothelin-1 caused hypotension and hyperaemic vasodilatation in the hindquarters; the mesenteric vasoconstrictor effects of endothelin-1 were diminished, but there was only a transient reversal of the renal vasoconstrictor effects of endothelin-1. 4 Pretreatment with the non-peptide angiotensin II receptor antagonist, DuP 753 (10 mg kg-1), caused slight hypotension associated with renal, mesenteric and hindquarters vasodilatations, but DuP 753 did not affect responses to endothelin-1 infusion. However, under these conditions co-infusion of human alpha-CGRP (15 nmol kg-1 h-1) caused a sustained reversal of the renal vasoconstrictor effects of endothelin-1. 5 These results indicate that the failure of human alpha-CGRP to cause sustained reversal of the renal vasoconstrictor effects of endothelin-1 in the absence of DuP 753 was due to activation of the reninangiotensin system (possibly as a consequence of the hypotension). 6. In the second experiment, L-NAME (l0mgkg-1) caused renal, mesenteric and hindquarters vasoconstrictions similar to those seen in the presence of endothelin-1. However, the renal vasoconstrictor effects of L-NAME were reversed completely by human alpha-CGRP (l5nmolkg- h-1), even though the latter caused hypotension comparable to that seen in the presence of endothelin-1. These results are consistent with a lack of functional activation of the renin-angiotensin system by human alpha-CGRP in the presence of L-NAME. 7. The vasoconstrictor effects of L-NAME on the hindquarters were completely reversed by infusion of human alpha-CGRP, but hindquarters flow and vascular conductance did not rise above baseline levels. Hence these results indicate the hindquarters hyperaemic vasodilator effects of human alpha-CGRP seen in the presence of endothelin-1 were contributed to by nitric oxide-mediated mechanisms.
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PMID:Haemodynamic effects of human alpha-calcitonin gene-related peptide following administration of endothelin-1 or NG-nitro-L-arginine methyl ester in conscious rats. 187 60

The influence of dietary sodium restriction and angiotensin II blockade on hypertension induced by a 25-day period of administration of the inhibitor of nitric oxide synthesis NG-nitro-L-arginine methyl ester (L-NAME: 10 mg/kg twice daily by gavage) was assessed in Wistar rats fed a normal or low sodium diet. In addition, the angiotension II receptor blocker, losartan (30 mg/kg once daily by gavage) was administered prior to and during L-NAME in rats fed the normal sodium diet. Results expressed as mean +/- ESM are presented in the following table: [table: see text] At the end of studies, conscious systolic arterial pressure increased similarly in L-NAME-treated groups maintained on NS or LS intake. Moreover, a 25% reduction in cardiac output due to a decrease in stroke volume was observed in both groups. A slight but significant cardiac hypertrophic response was observed in hypertensive rats irrespective of sodium intake. Losartan totally prevented the development of hypertension as well as the decrease in cardiac output and the cardiac hypertrophy associated with L-NAME treatment in rats on normal sodium intake. In conclusion, hypertension resulting from chronic blockade of nitric oxide synthesis was not affected by dietary sodium restriction. A crucial role for the renin-angiotensin system was demonstrated in this new model of hypertension.
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PMID:[Sodium intake and angiotensin in hypertension induced by chronic NO synthase inhibition in the rat]. 751 Apr 68

NO synthase is present in magnocellular neurons of supraoptic and paraventricular nuclei as well as in the posterior pituitary gland and may participate in control of vasopressin secretion. To test this possibility, experiments were performed in conscious, chronically prepared rabbits to determine the effect of NO synthesis inhibition with NG-nitro-L-arginine methyl ester hydrochloride (L-NAME) on basal vasopressin secretion and vasopressin responses to increased plasma osmolality (hypertonic saline infusion; P osm) and decreased blood pressure (nitroprusside infusion). L-NAME infusion (0.5 mg.kg-1 x min-1 i.v.) increased mean arterial pressure [MAP; 82.6 +/- 3.4 to 93.0 +/- 3.0 mmHg (P < 0.02)], decreased heart rate [HR; 242 +/- 12 to 209 +/- 9 beats/min (P < 0.02)], decreased plasma renin activity [PRA; 3.1 +/- 0.6 to 2.0 +/- 0.6 ng.ml-.2 h-1 (P < 0.001)], and increased plasma vasopressin concentration [P AVP; 2.2 +/- 0.3 to 4.5 +/- 1.0 pg/ml (P < 0.05)]. P(osm) did not change. Hypertonic saline infusion did not change MAP or HR but decreased PRA [4.3 +/- 0.8 to 0.9 +/- 0.2 ng.ml-1 x 2 h-1 (P < 0.01)], increased P(osm) [284 +/- 1 to 305 +/- 2 mosmol/kg H2O (P < 0.001)], and increased PAVP [2.8 +/- 0.3 to 12.7 +/- 2.7 pg/ml (P < 0.01)].(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of inhibition of nitric oxide synthesis on vasopressin secretion in conscious rabbits. 751 50

Nitric oxide (NO) has effects on renal blood flow, glomerular filtration rate, renin secretion, and renal sodium excretion. Four isoforms of nitric oxide synthase (NOS) have been cloned to date. However, the molecular identity of NOS present in the renal vasculature is unknown. Endothelial NOS (NOS-III) is regulated both acutely by cell calcium and chronically by shear stress. To determine if renal blood vessels and the glomerulus express NOS-III mRNA, we used degenerate polymerase chain reaction (PCR) to clone a portion of rat NOS-III. We then assayed NOS-III mRNA in microdissected renal structures by reverse transcriptase-PCR. NOS-III mRNA was expressed at high levels in glomeruli, arcuate vessels, and interlobular artery/afferent arterioles. NOS-III mRNA was detected inconsistently in proximal tubules, thick ascending limbs, and cortical and inner medullary collecting ducts. Previous studies have shown that chronic oral treatment with the NOS inhibitor N omega-nitro-L-arginine methyl ester (L-NAME) decreases NO synthesis and causes hypertension. To determine if the systemic blockade occurs only by competitive inhibition, we determined the effect of L-NAME on glomerular NOS-III mRNA. L-NAME administration (5 days) decreased NOS-III mRNA in the glomerulus to 25 +/- 12% of control levels. We conclude that endothelial NOS-III mRNA is preferentially expressed in the glomerulus and renal vasculature, where it can modulate renal blood flow and glomerular filtration rate. Furthermore, glomerular NOS-III may be modulated at the level of mRNA abundance in vivo by systemic L-NAME.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Localization and regulation of endothelial NO synthase mRNA expression in rat kidney. 752 Jun 68

The contribution of the renin-angiotensin system (RAS) and various endogenous vasoconstrictors on the pressor response to acute N omega-nitro-L-arginine methyl ester (L-NAME) administration (200 micrograms/kg/min) was assessed in anesthetized Wistar rats. Activity of the endogenous RAS was suppressed either by chronic treatment by a nonpeptide angiotensin II (AII) receptor antagonist (losartan) or an angiotensin-converting enzyme inhibitor (ACEI: enalapril), DOCA-salt pretreatment (without previous uninephrectomy), and binephrectomy (36-40 hours before experiments). We also studied the influence of chronic dietary sodium restriction. The role of alpha 1-adrenoceptor activity, endothelin (ET), and eicosanoids was evaluated in rats pretreated by prazosin, phosphoramidon (a nonspecific blocker of the conversion of big ET to ET), indomethacin, and the thromboxane A2 (TXA2) prostaglandin H2 (PGH2)-receptor antagonist SQ 29548, respectively. Finally, we tested the influence of the calcium channel blocker nicardipine on the vasopressor effect of L-NAME. In nonpretreated animals, L-NAME infusion induced an increase in mean arterial pressure (MAP) of 38 +/- 4 mm Hg. Chronic suppression of the RAS by losartan, enalapril, or DOCA did not alter the response to L-NAME, but the effect of L-NAME was moderately blunted in binephrectomized rats. Moderate attenuation (approximately 25%) and to a similar extent of the pressor effect of L-NAME was afforded by the low-sodium diet, phosphoramidon, SQ 29548, and indomethacin, whereas nicardipine markedly blunted by 74% the effect of L-NAME. We conclude that the acute pressor effect of L-NAME is mediated (at least in part) by cyclooxygenase-dependent products (mainly TXA2) and ET, but not by the RAS.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Endogenous vasoactive systems and the pressor effect of acute N omega-nitro-L-arginine methyl ester administration. 752 59

Since dietary salt loading enhances nitric oxide (NO) generation in the kidney, we investigated the hypothesis that changes in salt intake have specific effects on vascular resistance in the kidney mediated by the L-arginine-NO pathway. We contrasted changes in renal and hindquarter vascular resistances (RVR and HQVR) in anesthetized rats during intravenous infusions of graded doses of the NO synthase inhibitor NG-nitro-L-arginine methyl ester (L-NAME). Groups (N = 8 to 10) of rats were maintained on a high salt (HS) or low salt (LS) diet for two weeks. Compared to those on LS, rats on HS had a greater increase in mean arterial pressure (delta MAP; +32 +/- 4 vs. +22 +/- 3%; P = 0.05) and RVR (+160 +/- 17 vs. +83 +/- 10%; P < 0.005) and a greater fall in renal blood flow (delta RBF; -47 +/- 3 vs. -32 +/- 4%; P < 0.01); changes in HQVR were similar in the two groups. The enhanced RVR response to L-NAME in HS rats could not be ascribed to the higher renal perfusion pressure (RPP) since it persisted in rats whose RPP was controlled by adjustment of a suprarenal aortic clamp. Changes in RVR with an NO donor (SIN-1) were similar in HS and LS rats. L-NAME reduced plasma renin activity in both HS and LS rats. After inhibition of ACE with captopril, or of angiotensin II type I (AT1) receptor with losartan, the increase in RVR with L-NAME remained greater in HS than LS rats.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Renal vasoconstriction during inhibition of NO synthase: effects of dietary salt. 752 72

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