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 present study investigated whether chronic nitric oxide (NO) inhibition prevents the hyperdynamic circulatory syndrome that appears in rats after partial portal vein ligation (PPVL). N omega-nitro-L-arginine methyl ester (L-NAME; 30 micrograms.kg-1.min-1, n = 17), a NO biosynthesis inhibitor, or vehicle (n = 17) was infused continuously from PPVL through subcutaneously osmotic pumps. Studies were performed, in ketamine-anesthetized Sprague-Dawley rats, in one-half of the animals at 4 days and in the remaining one-half at 8 days from PPVL. At 4 days, PPVL rats treated with L-NAME had higher mean arterial pressure (MAP), systemic vascular resistance (SVR), and splanchnic arteriolar resistance (SAR) and lower cardiac output and portal venous inflow (PVI) than PPVL rats treated with vehicle (P < 0.05). Similarly, at 8 days PPVL rats treated with L-NAME had higher MAP and SVR and lower cardiac output (P < 0.05) than PPVL rats treated with vehicle. In contrast, PVI and SAR were similar. At 4 days plasma volume and mesenteric-systemic shunting were lower, although nonsignificantly, in PPVL rats treated with L-NAME. This trend completely disappeared at 8 days. L-NAME did not change portal pressure at either 4 or 8 days. After 4 days of continuous treatment with L-NAME, nonportal hypertensive control rats had a significantly higher MAP, lower cardiac index and PVI, and higher SVR and SAR than nonportal hypertensive rats treated with vehicle. Contrary to PPVL rats, these effects were maintained after 8 days of treatment. The present study shows that NO contributes to the systemic disturbances of portal hypertension. However, NO inhibition delayed but did not prevent the splanchnic vasodilation that appears after PPVL, suggesting that other factors could also be involved.
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PMID:Effects of continued NO inhibition on portal hypertensive syndrome after portal vein stenosis in rat. 781 Jun 66

This study investigates the effects of inhibition of nitric oxide synthesis by NG-nitro-L-arginine methyl ester (L-NAME), the inhibition of prostaglandin synthesis with indomethacin and the combined effects on gastric mucosal hyperemia of ketamine-anesthetized rats with portal hypertension induced by partial portal vein ligation. The hydrogen gas-clearance technique was used for measurement of gastric mucosal blood flow. Blood pressure increased with L-NAME administration in a similar manner in portal-hypertensive and sham-operated rats. Low doses of L-NAME (1 and 3 mg/kg, intravenously) caused a significant and dose-dependent reduction in gastric mucosal blood flow in portal-hypertensive rats but had no effect on sham-operated animals. With a higher dose of L-NAME (13 mg/kg, intravenously), a significant decrease in gastric mucosal blood flow was observed in both portal-hypertensive and sham-operated rats. Indomethacin pretreatment (5 mg/kg, subcutaneously) caused a significant decrease in basal gastric mucosal blood flow of portal-hypertensive rats but did not modify this parameter in sham-operated animals. In sham-operated rats pretreated with indomethacin, the lower dose of L-NAME (3 mg/kg) did not significantly modify basal gastric mucosal blood flow. Likewise, pretreatment with indomethacin in sham-operated rats did not augment the significant reduction in gastric mucosal blood flow produced by the higher dose of L-NAME. In portal-hypertensive rats the significant dose-dependent reduction in gastric mucosal blood flow induced by L-NAME (3 and 13 mg/kg) was not significantly altered by pretreatment with indomethacin.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Involvement of nitric oxide and prostaglandins in gastric mucosal hyperemia of portal-hypertensive anesthetized rats. 835 4

In portal hypertension, the role of the vasorelaxant nitric oxide (NO) in long-term splanchnic and systemic vascular tone regulation is unclear. This study examined the effects of long-term administration of a NO synthesis inhibitor on haemodynamics in portal hypertensive rats. Rats were randomly assigned to receive either water (placebo) or 100 mg/kg.day of oral N-nitro-L-arginine methylester (L-NAME) for 28 days. At 14 days, the portal vein was ligated in 10 rats from each group. At 28 days, splanchnic and systemic blood flows were measured in 20 normal and 20 portal vein stenosed rats. Plasma atrial natriuretic peptide (ANP) concentrations as well as plasma and urinary cyclic guanosine monophosphate (cGMP) levels were also measured. Porto-systemic shunts were measured in other portal vein stenosed animals that had or had not received L-NAME. Portal vein stenosed rats that received L-NAME had significantly lower portal tributary blood flow and percentages of portal-systemic shunting (7.3 +/- 0.5 versus 3.7 +/- 0.2 ml/min.100 g and 96 +/- 1 versus 68 +/- 5%, respectively) and higher hepatocollateral vascular resistance (147 +/- 10 versus 295 +/- 30 dyn.s.cm-5.100 g.10(3), respectively) than placebo portal vein stenosed rats. Portal pressure, ANP and cGMP levels did not differ between the groups. Arterial pressure was significantly higher and cardiac index lower after L-NAME than after placebo. Normal rats had similar but less marked L-NAME-induced responses than portal hypertensive rats. The presence of a long-term L-NAME-induced vasoconstriction in collateral vessels and splanchnic and systemic arterioles in portal vein stenosed rats indicates that a NO-mediated vasodilator tone may contribute to the development and the maintenance of collateral circulation as well as splanchnic and systemic vasodilation in portal hypertension. Moreover, the NO-mediated vasodilator tone in portal hypertensive animals seems to be increased.
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PMID:Haemodynamic and hormonal responses to long-term inhibition of nitric oxide synthesis in rats with portal hypertension. 889 79

Gastric bicarbonate secretion might be modified in portal hypertension as a consequence of the intramucosal increase in prostaglandins and nitric oxide content. Therefore, we studied gastric bicarbonate secretion in control and portal hypertensive rats and investigated the role of prostaglandins and nitric oxide. Basal gastric bicarbonate secretion was studied in rats, using a gastric pH back-titration technique, two weeks after partial portal vein ligation or a sham operation. The effects of the following drugs were investigated: the prostaglandin synthase inhibitor indomethacin (5 mg/kg intravenously), prostaglandin (PGE2) (1 mg/kg intravenously), the nitric oxide synthase inhibitors N(G)-nitro-L-arginine methyl ester (L-NAME, 5 mg/kg intravenously) and N(G)-monomethyl-L-arginine (L-NMMA, 50 mg/kg intravenously), and the nitric oxide donor nitroprusside (5 mmol/liter in the gastric perfusate). Plasma leakage in the gastric wall was also measured after Evans blue dye injection in portal hypertensive and sham-operated rats pretreated by indomethacin (5 mg/kg, intravenously) and L-NAME (5 mg/kg, intravenously). Basal bicarbonate secretion was significantly increased in portal hypertensive rats as compared to controls. After indomethacin, the bicarbonate secretion was significantly reduced to a similar level in both groups. PGE2 increased bicarbonate secretion significantly more in portal hypertensive rats than in sham-operated rats. The NO synthase inhibitor L-NMMA significantly increased bicarbonate secretion in portal hypertensive rats only, while the other inhibitor, L-NAME, increased it significantly more in portal hypertensive than in the sham-operated rats. Plasma leakage in portal hypertensive rats, which was increased in the basal condition as compared to control, was further enhanced by indomethacin but not by L-NAME pretreatment. The nitric oxide donor significantly reduced bicarbonate secretion in portal hypertensive rats to reach a similar level as in sham-operated rats. Basal gastric bicarbonate secretion is increased in portal hypertensive rats. This could be due to an enhanced prostaglandin mucosal level. Nitric oxide, which reduces bicarbonate secretion, may contribute to limiting prostaglandin-induced bicarbonate overproduction.
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PMID:Increased gastric bicarbonate secretion in portal hypertensive anesthetized rats: role of prostaglandins and nitric oxide. 912 43

Portal hypertension (PHT) is characterized by splanchnic hyperemia due to a reduction in mesenteric vascular resistance. The reasons for the decreased resistance include an increased responsiveness to a vasodilator substance. Because the activation of an inhibitory guanine nucleotide regulatory (Gi) protein can result in endothelium-dependent relaxation, we tested the hypothesis that exaggerated Gi-protein induced relaxation via a nitric oxide (NO)-dependent pathway partly reflects the enhanced Gi-protein expression in PHT vessels. PHT was created in Sprague-Dawley rats by a partial portal-vein ligation. Control animals were sham operated. Using isolated vascular rings in the absence or presence of an intact endothelium, N(G)-nitro-L-arginine methyl ester (L-NAME), and pertussis toxin, dose response relationships for sodium fluoride (NaF; range, 0.1-4 mmol/L), a Gi protein activator, were determined in a cumulative manner. Gi-protein expression was determined by Western blotting. NaF caused a dose-dependent relaxation in both sham and portal hypertensive pre-contracted vessels, an effect that was significantly inhibited by pertussis toxin, endothelial denudation, and L-NAME. Concentrations of NaF greater than 4 mmol/L caused contractions, an effect that was unaffected by L-NAME. The NaF-induced relaxation response was significantly greater in PHT vessels as compared with sham concomitant with increased Gi-protein expression in PHT vessels. These data suggest that the enhanced endothelial Gi-protein-induced relaxation in PHT vessels may partly reflect enhanced expression of Gi-proteins in PHT vessels and may, thus, represent an important mechanism for exaggerated NO-dependent relaxation in the PHT vasculature.
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PMID:Enhanced G-protein-induced relaxation in portal hypertensive rats: role of nitric oxide. 921 48

1. Increased production of nitric oxide (NO) has been suggested to underlie both the vascular hyporeactivity to vasoconstrictors and the splanchnic vasodilatation seen in portal hypertension. This study assessed the role of NO in the vasoconstrictor hyporeactivity of portal vein-ligated (PVL) rats in isolated and in situ perfused mesenteric arterial beds. 2. Isolated perfused mesenteric arteries of PVL rats were significantly less reactive to noradrenaline (NA), methoxamine (METH), arginine vasopressin (AVP) and endothelin-1 (ET-1) than those from sham-operated (Sham) rats. 3. Blockade of NO synthesis with NG-nitro-L-arginine methyl ester (L-NAME, 100 microM) in isolated perfused mesenteric arteries from PVL rats restored the reactivity to bolus injections of AVP and ET-1, but had little effect on the hyporeactivity to NA or METH. Cyclo-oxygenase inhibition with indomethacin (5 microM) likewise did not restore reactivity to METH of isolated perfused mesenteric arteries of PVL rats. 4. The hyporeactivity to METH seen in isolated perfused mesenteric arteries from PVL rats was reduced by low concentrations of AVP (20 nM) or ET-1 (1 nM) which per se caused only a slight increase in perfusion pressure. When L-NAME (100 microM) was combined with AVP (20 nM) or ET-1 (1 nM), respectively, reactivity to METH of isolated perfused mesenteric arteries of PVL rats was restored to the level seen in Sham rats. These effects of AVP and ET-1 were not mimicked by precontracting the vessels with 5-hydroxytryptamine (5 microM). 5. The differential effects of L-NAME and AVP on the hyporesponsiveness to methoxamine and AVP were corroborated by experiments performed with the in situ perfused mesenteric vascular bed preparation. 6. These data indicate that both NO-dependent and NO-dependent mechanisms are involved in the vasoconstrictor hyporesponsiveness of mesenteric arteries from portal hypertensive rats. The hyporeactivity to AVP and ET-1 is mediated by NO whereas the reduced responsiveness to adrenoceptor agonists appears to be predominantly NO-independent AVP and ET-1, in addition, seem to inhibit the NO-independent mechanism of vascular hyporeactivity, since the hyporesponsiveness to METH was reduced in the presence of AVP or ET-1 and abolished by the combination of these peptides with L-NAME.
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PMID:Nitric oxide-dependent and -independent vascular hyporeactivity in mesenteric arteries of portal hypertensive rats. 922 64

In chronic severe infection with Schistosoma mansoni, portal hypertension accompanied by anatomical changes of the portal vasculature can develop as a consequence of granulomatous response to eggs. Mice infected unisexually with male worms were used in the present study in order to investigate a direct effect of worms on the reactivity of their host portal vein. A higher reactivity in the presence of 5-hydroxytryptamine (5-HT), but not in the presence of KCl 100 mM solution, was observed in portal vein from infected mice compared to healthy mice. It was characterized by an increase in the maximal contraction and sensitivity to 5-HT. Blockade of NO-synthase with N omega-nitro-L-arginine methyl ester (L-NAME) induced a small increase in 5-HT potency in the portal vein from non-infected mice, but did not change the amplitude of the contractions. In portal veins from infected mice, preincubation with L-NAME did not affect the reactivity to 5-HT. Histological analysis indicated endothelial damage, subendothelial fibrous plaques, and focal areas of inflammatory infiltrates in the adventitial layer. As a conclusion, these results show that unisexual infection of mice with male S. mansoni increased the reactivity of the portal vein to 5-HT which seems to be only partially related to an alteration in the endothelial production of nitric oxide.
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PMID:Increased reactivity to 5-hydroxytryptamine of portal veins from mice infected with Schistosoma mansoni. 978 26

In chronic severe infection with Schistosoma mansoni, portal hypertension and related vascular alterations usually develop as a consequence of granulomatous response to eggs. In order to investigate a putative direct effect of worms on the reactivity of their host portal vein, mice infected only with male worms were used in the present study. An higher reactivity to 5-hydroxytryptamine (5-HT) characterized by an increase in the maximal contraction and sensitivity was observed in portal vein from infected mice compared to healthy mice. Blockade of NO-synthase with l-NAME induced a small increase in 5-HT potency in portal vein from non-infected mice without changing the amplitude of the contractions, whereas it did not alter the reactivity of veins from infected mice. The present results show that unisexual infection of mice with male S. mansoni increased the reactivity of the portal vein to 5-HT which seems to be partially related to an alteration in the nitric oxide release by endothelium.
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PMID:Portal veins of mice infected with Schistosoma mansoni exhibit an increased reactivity to 5-hydroxytryptamine. 992 37

Portal hypertension predisposes gastric mucosa to increased damage by noxious agents. Adaptive cytoprotection has not been studied in portal hypertensive gastric mucosa. We evaluated adaptive cytoprotection in the gastric mucosa of portal hypertensive rats by exposure to ethanol. The injury index (percent gross lesions) was significantly higher in portal hypertensive rats than in sham-operated rats. The ratio of adaptive cytoprotection, calculated as the degree of decrease in the injury index caused by pre-absolute-ethanol administration of 20% ethanol, was significantly impaired in portal hypertensive rats. Basal levels of gastric mucosal hexosamine were lower in portal hypertensive rats than in controls, and a blunted response to 20% ethanol was associated with portal hypertension. Nitric oxide inhibition (L-NAME, 5 mg/kg) reduced the ratio of adaptive cytoprotection in sham-operated but not in portal hypertensive rats. These results suggest that impaired adaptive cytoprotection in portal hypertensive gastric mucosa may be caused by blunted mucus production.
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PMID:Impaired adaptive cytoprotection to ethanol-induced damage in gastric mucosa of portal hypertensive rats. 1038 6

Hyposensitivity to vasopressin is a well documented phenomenon in animals with portal hypertension and patients with cirrhosis subject to haemorrhage. Haemorrhage is associated with the endogenous release of bradykinin, which may subsequently stimulate the formation of nitric oxide (NO). The present study investigated the relative contribution of NO synthase (NOS) isoforms and the role of bradykinin in the pathogenesis of splanchnic hyposensitivity to a long-acting vasopressin analogue, glypressin, in rats with portal hypertension induced by partial portal vein ligation (PVL). At 14 days after the operation, systemic and portal haemodynamics were measured in stable or bleeding PVL rats receiving an intravenous infusion of glypressin (0.07 mg/kg). In the treatment groups, N(G)-nitro-L-arginine methyl ester (L-NAME; a non-selective NOS inhibitor), L-canavanine (a specific inhibitor of inducible NOS) or HOE 140 (a bradykinin B(2) receptor antagonist) was administered 45 min before the infusion of glypressin. In rats with a hypotensive haemorrhage, 4.5 ml of blood was withdrawn and 50% of the withdrawn blood was re-infused before the administration of glypressin or various inhibitors. Splanchnic hyposensitivity to glypressin was demonstrated in the haemorrhage/transfused PVL rats. The infusion of L-NAME elevated the mean arterial pressure in the bleeding PVL rats without the modulation of portal pressure. The addition of L-NAME or HOE 140, but not L-canavanine, significantly and similarly potentiated the portal-hypotensive effects of glypressin. It is concluded that constitutive NOS and bradykinin are responsible, at least partly, for the splanchnic hyposensitivity to glypressin observed in the early stages of the haemorrhage/transfused rat model of portal hypertension.
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PMID:Splanchnic hyposensitivity to glypressin in a haemorrhage/transfused rat model of portal hypertension: role of nitric oxide and bradykinin. 1109 89

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