UMLS:C0406810 - FACTA Search

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)

1. Nitric oxide (NO) has been suggested as the mediator of the vascular response to bradykinin. In the present study, we found that NO did not mediate the hypotensive response to bradykinin. In addition, the significance of kininase II in terminating a kinin-induced hypotension and the role of the adrenergic system in compensating for the acute fall in blood pressure (BP) was established. 2. In normal rats, the NO-synthase inhibitor N omega-nitro-L-arginine methyl ester (L-NAME) induced a rise in basal BP (delta BP = 40 +/- 6 mmHg, P < 0.0014) which was not altered by pretreatment with phentolamine (delta BP = 50 +/- 6 mmHg, NS). L-NAME did not attenuate the acute fall in BP in response to bradykinin (3-30 micrograms kg-1) or kallikrein (6-300 micrograms kg-1). However, a significant decrease was observed in the duration of the hypotensive response (P < 0.027). This shorter duration was not observed after pretreatment with phenotolamine in addition to L-NAME. Phentolamine alone prolonged the hypotensive response to bradykinin (P < 0.04). These experiments confirm the role of NO-formation as a hypotensive component in BP homeostasis but not the role of NO as a mediator in kinin-induced hypotension. It further shows that the continuous NO-release also impedes the compensatory adrenergic hypertensive response following the acute fall in BP induced by bradykinin. 3. The hypertensive response to intravenously administered phenylephrine was found to be unchanged by preadministration of L-NAME (NS) thus showing that L-NAME did not change the sensitivity to the adrenergic response. In a separate protocol on L-NAME-treated rats we found no difference in heart rate (NS) during the recovery period following bradykinin before as compared to after administration of phentolamine. It was therefore concluded that the observed alterations in the duration of the hypotensive response were most probably due to changes in peripheral vascular resistance.4. To confirm further that NO is not a mediator in kinin-induced hypotension, we used an experimental model where the response to bradykinin was prolonged by preventing kinin degradation by kininase II-converting enzyme inhibitor (CEI). To produce a hypotensive response purely dependent on kinin, the studies were performed after removal of the renin-angiotensin system by nephrectomy (Nx). In this model, bradykinin (6 microg kg-1, i.v.) induced a prolonged hypotensive response. Pretreatment with LNAME did not alter the magnitude or the progression of the hypotensive response to bradykinin, thus confirming that NO was not a mediator in BK-induced hypotension.5. To study the mechanisms involved in terminating the hypotensive response to bradykinin, the results from the Nx CEI-treated rats were compared with Nx animals not treated with CEL. In the latter group,bradykinin induced a short hypotensive response, i.e. 0.5 +/- 0.1 min as compared to the 17 +/- 1 min after CEI (P<0.003). After kininase II-inhibition (and L-NAME), BP recovery was totally dependent on the adrenergic system, since phentolamine prevented a recovery in BP during the experimental period(P<0.01, compared to the CEI/L-NAME group). These results demonstrate the importance of kininase II as the major agent in terminating a bradykinin-induced hypotension, whereas the adrenergic system plays a small, although significant role in compensating for the fall in BP. The continuous release of NO therefore not only lowers basal BP but also impedes the compensatory adrenergic response.
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PMID:The role of nitric oxide, adrenergic activation and kinin-degradation in blood pressure homeostasis following an acute kinin-induced hypotension. 788 14

Angiotensin-converting enzyme (ACE) inhibitors reduce intimal hyperplasia after balloon injury. A role for nitric oxide (NO) has been suggested in this effect. Because recent data suggest that NO may modulate some features of endothelial cells and because endothelial cells are involved in the control of intimal hyperplasia, we investigated the role of NO synthesis in the effect of an ACE inhibitor, perindopril, on neoendothelial dysfunction and intimal hyperplasia in a rabbit model of unilateral iliac balloon injury. New Zealand White male rabbits received placebo, perindopril, or cotreatment with perindopril and NG-nitro-L-arginine methyl ester (L-NAME) and were evaluated 4 wk after the injury. Fifteen rabbits (5 in each group) were used to assess in vitro vasoreactivity and twenty-four (8 in each group) for morphometric analysis. In injured vessels, neoendothelium-dependent relaxation in ACE inhibitor-treated animals was improved compared with placebo (P < 0.05) and restored to the level of noninjured vessels (NS). The improvement observed with ACE inhibitor was abolished by cotreatment with L-NAME (P < 0.05). In the same vessels, no effect was observed on neoendothelium-independent vasoreactivity. The improved neoendothelial dysfunction with ACE inhibitor was associated with a 66% reduction in intimal thickening (P < 0.01). The effect was also reversed by cotreatment with L-NAME (P < 0.01). In noninjured vessels, treatment did not alter vasoreactivity or morphology of the vessel wall. These results suggest that NO synthesis may play a key role in the improvement of vascular function seen with ACE inhibitor in balloon-injured vessels.
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PMID:NO synthesis is involved in structural and functional effects of ACE inhibitors in injured arteries. 876 64

1. The role of endogenous bradykinin in mean arterial blood pressure (BP) homeostasis was studied in spontaneously hypertensive (SHR) and normotensive (WKY) rats by the use of a bradykinin B2-receptor antagonist (BKant; Hoe 140, 11.6 micrograms kg-1) and converting enzyme (kininase II) inhibitor (captopril, 10 mg). To obtain a response to captopril that was induced through inhibition of kinin-degradation only and not through inhibition of angiotensin II-formation, the studies were performed on binephrectomized male rats to eliminate the renin-angiotensin system. 2. The role of the nitric oxide (NO) and the adrenergic systems were evaluated by the use of NO-synthase inhibitor (L-NAME, 0.3 g kg-1) and phentolamine (2 mg kg-1), respectively. 3. The rats were anaesthetized and pretreated with two injections of vehicle (PBS) or drugs spaced 5 min apart: PBS + PBS; BKant + PBS; PBS + L-NAME; BKant + L-NAME; or phentolamine + L-NAME. All rats were given captopril 15 min later. Time-control groups were treated with L-NAME but not captopril. 4. In WKY rats, captopril did not significantly alter BP in any of the groups. In the SHR-PBS + PBS group, on the other hand, captopril induced an immediate fall in BP (delta BP = -23 +/- 4 mmHg, P < 0.0017) which was completely blocked by BKant (delta BP = 2 +/- 2 mmHg) (P < 0.0011). L-NAME did not significantly alter the immediate hypotensive response to captopril but disclosed a later hypertensive reaction. In L-NAME + BKant-treated rats, both the hypotensive response and the late hypertension was abolished. In rats treated with phentolamine + L-NAME, the immediate fall in BP was not different from the controls whereas the late hypertension was absent. 5. BKant itself had no effect on basal BP in either WKY or SHR even when a 10 times higher dose was tested in a separate set of experiments. This was true also for conscious, nonnephrectomized SHR rats. 6. It was concluded that endogenous production of bradykinin was demonstrable through kininase II-inhibition in hypertensive but not in normotensive rats. However, this endogenous bradykinin did not play a role in basal BP homeostasis. The captopril-induced hypotension depended on kinin but, under the present conditions, not on NO as a mediator. The fall in BP induced a compensatory adrenergic hypertensive response which was revealed when the continuous NO-synthesis was blocked by L-NAME.
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PMID:The role of endogenous bradykinin in blood pressure homeostasis in spontaneously hypertensive rats. 886 25

Angiotensin-converting enzyme (ACE) inhibitors have been shown to minimize fibrosis of the kidney tubulointerstitium in several diseases. In addition to lowering angiotensin II levels, ACE inhibitors can increase kinin levels and subsequently increase nitric oxide formation. To determine whether nitric oxide generation is a component of the beneficial effect of ACE inhibitors on renal fibrosis, enalapril, enalapril plus NG-nitro-L-arginine methyl ester (L-NAME) or L-arginine was administered to rats that had undergone unilateral ureteral obstruction (UUO). Ureteral obstruction caused significant increases in interstitial volume, monocyte macrophage infiltration, interstitial collagen IV and alpha-smooth muscle actin expression, transforming growth factor-beta 1 mRNA, collagen IV mRNA, and tissue inhibitor of metalloproteinase-1 mRNA. Enalapril treatment significantly blunted the increase in all parameters during UUO. Cotreatment of the animals with enalapril and L-NAME reversed the beneficial effect of enalapril in the obstructed kidney for all parameters. Treatment of animals with UUO with L-arginine significantly blunted the increase in all parameters except for transforming growth factor-beta 1 mRNA expression. In the enalapril- plus-L-NAME-treated animals, there were modest but significant increases in monocyte/macrophage infiltration of the interstitium and glomerulus, and collagen IV and alpha-smooth muscle actin expression in the interstitium of the contralateral unobstructed kidney. The urine nitrite concentration was significantly increased by either enalapril or L-arginine treatment, whereas L-NAME significantly reduced urine nitrite concentration. These results suggest that treatment modalities that increase nitric oxide formation have a beneficial effect on the progression of cellular and molecular parameters of tubulointerstitial fibrosis caused by obstruction of the ureter.
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PMID:Nitric oxide generation ameliorates the tubulointerstitial fibrosis of obstructive nephropathy. 891 81

We have previously shown that nitric oxide (NO) release by the coronary circulation in the failing and nonfailing human heart is, in part, regulated by local kinin production in coronary microvessels. Angiotensin-converting enzyme (ACE) also known as kininase II, inactivates kinins. ACE inhibitors prevent kinin breakdown by ACE, thereby increasing the concentration of bradykinin (BK) and related kinins. The goal of this study was to determine if kinins contribute to the therapeutic action of ACE inhibitors. Six hearts from end-stage heart failure patients were harvested at the time of orthotopic cardiac transplantation. Microvessels were prepared as previously described, and nitrite production, a metabolic product of NO in vitro, was determined by the Griess reaction. Microvessels were incubated in the presence of kininogen and bradykinin, and with the ACE inhibitors ramiprilat, enalaprilat, or captopril. All caused dose-dependent increases in nitrite. For instance, ramiprilat increased nitrite from 76 +/- 5.6 to 155 +/- 15 pmol/min per mg wet weight. Nitrite production in response to ACE inhibition was blocked by N-nitro-L-arginine methyl ester (L-NAME), a NO synthase inhibitor, and icatibant (HOE 140), a B2-kinin receptor-specific antagonist. Furthermore, NO production was prevented by 3 different serine protease inhibitors, which block kallikrein, the enzyme responsible for conversion of kininogen to kinins. Our results indicate that ACE/kininase inhibitors increase NO production by the coronary microvasculature in the failing human heart, through increased available active kinins. The therapeutic action of ACE inhibition in the failing human heart may result in part from increased NO production by coronary microvessels.
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PMID:Angiotensin-converting enzyme inhibitors promote nitric oxide production in coronary microvessels from failing explanted human hearts. 929 67

Cardiac dysrhythmias are common during anesthesia and surgery. An important precipitating factor of clinically relevant arrhythmias is the introoperative use of epinephrine. Bradykinin acts as an endogenous cardioprotective substance because it suppresses ventricular dysrhythmias induced by ischemia. In this study, we investigated whether bradykinin has a protective effect, preventing the development of dysrhythmias after epinephrine infusion in rats. Because kinins are potent stimulators of the release of nitric oxide and prostaglandins from the endothelium, we investigated whether the protective effect of bradykinin is mediated by these 2 autacoids. Male Sprague-Dawley rats anesthetized with sodium pentobarbital had catheters placed into a carotid artery and both jugular veins. Arterial blood pressure and lead II of the electrocardiogram (ECG) were continuously monitored and recorded. After a steady state was achieved, 1 mg/kg enalapril, an inhibitor of angiotensin I-converting enzyme/kininase II, was given intravenously to all groups except the one treated with losartan. Bradykinin was infused at the initial rate of 0.5 microg/kg per min. Cardiac arrhythmia was induced with 7.5 microg/kg epinephrine intravenously. Dysrhythmia was assessed by counting the number of premature ventricular contractions (PVCs), runs of ventricular tachycardia (V Tach), and missing beats during the first minute after epinephrine. In untreated, control rats, epinephrine caused 10.8 +/- 2.7 PVCs, 0.8 +/- 0.2 runs of V tach, and 11.6 +/- 7.4 missing beats/min. In rats pretreated with bradykinin, the same dose of epinephrine elicited 1.2 +/- 0.5 PVCs, no runs of V tach, and 0.4 +/- 0.4 missing beats/min. This beneficial effect of bradykinin was partially reversed by N-nitro-L-arginine methyl ester (L-NAME) or indomethacin, and completely by L-NAME plus indomethacin or icatibant, but it was not affected by des-Arg9[Leu8]-bradykinin. We conclude that bradykinin, acting on the B2 receptor, attenuates epinephrine-induced dysrhythmia via a mechanism that involves the release of NO and prostaglandins. Although the mechanism is not clear, NO and prostaglandins may prevent epinephrine-induced dysrhythmia and protect the myocardium via a direct action on cardiac neurons.
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PMID:Attenuation of epinephrine-induced dysrhythmias by bradykinin: role of nitric oxide and prostaglandins. 929 70

Angiotensin-converting enzyme inhibitors are reported to be cardioprotective against ischemia/reperfusion injury. Few studies have been made, however, on the cardioprotectiveness of orally administered angiotensin-conrerting enzyne inhibitors. Wistar rats were pretreated with oral delapril--30 mg/kg/day in the low-dose group and 90 mg/kg/day in the high-dose group--for one week. Cardiac function recovery was assessed after ischemia/reperfusion in the isolated working heart model. Rat hearts in the high-dose group were also reperfused with a solution containing nitro-L-arginine methyl ester, a nitric-oxide synthase inhibitor. Oral pretreatment of delapril did not affect baseline cardiac function. The percentage of cardiac output recovery for controls was 22 +/- 4.5%, for the low-dose group 44 +/- 6.5% (P < 0.05 versus controls), and for the high-dose group 76 +/- 5.3% (P < 0.001 versus controls and low-dose). Although coronary vascular resistance at the end of reperfusion showed no difference, mean coronary vascular resistance early after reperfusion was significantly lower (P < 0.0001) in both delapril groups than in control. In the high-dose group, reperfusion with L-NAME significantly increased coronary vascular resistance after ischemia/reperfusion and attenuated the cardioprotectiveness of delapril (P < 0.05 versus without nitro-L-arginine methyl ester). We thus found that oral administration of delapril was cardioprotective dose-dependently against ischemia/reperfusion injury. Nitric oxide appeared to be involved in the mechanism behind this cardioprotective effect.
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PMID:Cardioprotective effect of orally administered angiotensin-converting enzyme inhibitor against ischemia. Reperfusion injury in the isolated rat heart. 1051 36

Endothelial dysfunction ensuing inhibition of nitric oxide synthase (NOS) was investigated in male Sprague-Dawley rats given N(omega)-nitro-L-arginine methyl ester (L-NAME) in drinking water for 8 weeks. Age-matched rats served as controls. L-NAME-treated rats, as compared to control animals, showed: (1) a clear-cut increase in systolic blood pressure; (2) a consistent decrease of endothelial-cell NOS (eNOS) gene expression in aortic tissue; (3) a reduction of the relaxant activity of acetylcholine (ACh, from 10(-10) to 10(-4) M) on norepinephrine-precontracted aortic rings (reduction by 52+/-5%); (4) a marked decrease (-50%) of the basal release of 6-keto-prostaglandin F(1 alpha) (6-keto-PGF(1 alpha)) from aortic rings. In L-NAME-treated rats, administration in the last 2 weeks of either the angiotensin-converting enzyme inhibitor enalapril (1 mg/kg/day) or the cognate drug quinapril (1 mg/kg/day) decreased systolic blood pressure levels, completely restored eNOS mRNA levels in aortic tissue, and allowed a consistent recovery of both the relaxant activity of ACh and the generation of 6-keto-PGF(1 alpha). No difference was present in the ability of the two angiotensin-converting enzyme inhibitors to reverse NAME-induced endothelial dysfunction. These findings indicate that L-NAME-induced hypertension in the rat relies on the marked impairment of the endothelial vasodilator function, with an ensuing contribution by a decreased production of prostacyclin by the endothelial cells. Angiotensin-converting enzyme inhibition by enalapril or quinapril was equally effective in improving endothelial vasodilator function, prostacyclin endothelial production and restoring aortic eNOS mRNA.
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PMID:Enalapril and quinapril improve endothelial vasodilator function and aortic eNOS gene expression in L-NAME-treated rats. 1217 10

Chronic inhibition of nitric oxide synthase promotes renin-dependent hypertension and renal injury. The present study examines how renal angiotensin II receptors are expressed in this model. N(G)-nitro-L-arginine methyl ester (L-NAME) was given orally to rats for 1 month and was associated or not with captopril during the 4 last days of the administration. 125I-[Sar1, Ile8]-Ang II binding, AT1)mRNA and cytosolic calcium were studied in isolated glomeruli from L-NAME and control rats and in cultured mesangial cells from normal rats. Renal injury was marked in rats receiving L-NAME. Type I angiotensin II (AT1) receptor number and mRNA expression were decreased (p < 0.05) in glomeruli isolated from L-NAME-treated rats compared with controls, unless they received captopril in combination. The low level of AT1 receptor expression was associated with an attenuated rise of cytosolic calcium in response to angiotensin II. Angiotensin-converting enzyme activity in glomeruli and angiotensin II concentration in renal cortex were increased (p < 0.05) in rats receiving L-NAME alone, whereas aminopeptidase A activity was not modified. To better discriminate between the direct and indirect effects of nitric oxide deficiency, rat mesangial cells were exposed or not for 24 h to S-nitroso-N-acetyl penicillamine, a nitric oxide donor. Angiotensin II binding, AT1 mRNA expression and calcium response to angiotensin II were decreased in presence of the nitric oxide donor (p < 0.01). These results suggest that the decrease of AT1 receptor expression after 1 month of L-NAME treatment does not depend on a direct effect of nitric oxide deficiency but results from the high local angiotensin II concentration due to the stimulated angiotensin-converting enzyme activity. They also show that the renin-angiotensin dependence of this model of hypertension does not result from the overexpression of AT1 receptors.
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PMID:AT1 receptor expression in glomeruli from NO-deficient rats. 1464 64

1. The mechanisms involved in the vasodilator actions of angiotensin II (Ang II) have not yet been completely elucidated. We investigated the potential mechanisms that seem to be involved in the Ang II vasodilator effect using rat isolated mesenteric vascular bed (MVB). 2. Under basal conditions, Ang II does not affect the perfusion pressure of MVB. However, in vessels precontracted with norepinephrine, Ang II induces vasodilation followed by vasoconstriction. Vasoconstrictor, but not the vasodilation of Ang II, is inhibited by AT(1) antagonist (losartan). The vasodilator effect of Ang II was not inhibited by AT(2), angiotensin IV and angiotensin 1-7 receptor antagonists alone (PD 123319, divalinal, A 779, respectively). 3. The vasodilator effect of Ang II is significantly reduced by endothelial removal (deoxycholic acid), but not by indomethacin. Inhibition of NO-synthase by N(G)-nitro-l-arginine methyl ester (l-NAME) and guanylyl cyclase by 1H-[1,2,3] oxadiazolo [4,4-a] quinoxalin-1-one (ODQ) reduces the vasodilator effect of Ang II. This effect is also reduced by tetraethylammonium (TEA) or l-NAME, and a combination of l-NAME plus TEA increases the inhibitory effect of the antagonists alone. However, indomethacin does not change the residual vasodilator effect observed in vessels pretreated with l-NAME plus TEA. 4. In vessels precontracted with norepinephrine and depolarized with KCl 25 mm or treated with Ca(2+)-dependent K(+) channel blockers (charybdotoxin plus apamin), the effect of Ang II was significantly reduced. However, this effect is not affected by ATP and voltage-dependent K(+) channel blockers (glybenclamide and 4-aminopyridine). 5. Inhibition of kininase II with captopril significantly potentiates the vasodilator effect of bradykinin (BK) and Ang II in the rat MVB. The inhibitory effect of the B(2) receptor antagonist HOE 140 on the vasodilator effect of Ang II is further enhanced by PD 123319 and/or A 779. 6. The present findings suggest that BK plays an important role in the endothelium-dependent vasodilator effect of Ang II. Probably, the link between Ang II and BK release is modulated by receptors that bind PD 123319 and A 779.
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PMID:The role of bradykinin, AT2 and angiotensin 1-7 receptors in the EDRF-dependent vasodilator effect of angiotensin II on the isolated mesenteric vascular bed of the rat. 1475 4

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