Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0022116 (ischemia)
91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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

The purpose of this study was to determine whether specific angiotensin II (AII) type 1 receptor blockade with losartan would affect arrhythmia generation in an isolated guinea pig ventricular model of simulated ischemia and reperfusion. Effects of losartan were evaluated in the presence and absence of exogenous AII. Transmembrane potentials and an electrocardiogram were recorded during perfusion with normal Tyrode's solution, exposure to simulated ischemia for 15 min (hypoxia, acidosis, lactate, hyperkalemia, glucose-free) and reperfusion for 30 min. Under normal conditions, losartan did not affect endocardial or transmural conduction times, action potential duration at 90% repolarization or effective refractory period (ERP). However, losartan and AII each had significant effects on electrophysiological parameters during simulated ischemia and reperfusion. Further, losartan and AII, both independently and in combination, exerted antiarrhythmic effects in early reperfusion. Neither losartan nor AII affected action potential duration at 90% repolarization during simulated ischemia or reperfusion. However, AII exerted antiarrhythmic effects by preventing pronounced shortening of ERP in simulated ischemia and early reperfusion. Losartan by itself had no effect on ERP, but completely blocked the antiarrhythmic action of AII on ERP. Nevertheless, losartan preserved antiarrhythmic efficacy by attenuating prolongation of transmural conduction times in stimulated ischemia and early reperfusion. This antiarrhythmic action occurred in the absence or presence of AII. Our results indicate that losartan has antiarrhythmic efficacy which is independent of AII type 1 receptor blockade.
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PMID:Losartan exerts antiarrhythmic activity independent of angiotensin II receptor blockade in simulated ventricular ischemia and reperfusion. 881 90

To assess the efficacy of losartan (2-n-butyl-4-chloro-5-hydroxymethyl-1-[(2'-(1H-tetrazol-5-yl)biphe nyl-4-yl)methyl]imidazole, potassium salt), an angiotensin II receptor antagonist, on acute myocardial ischemia, 36 four-month-old spontaneously hypertensive rats were used. The animals underwent 45 min of left coronary artery occlusion and 1 h of reperfusion and were randomly assigned to control and losartan-treated groups (2, 5, and 10 mg/kg, intravenously). Losartan was administered 15 min before ischemia. Electrocardiograms (lead II) were monitored continuously throughout the experiment. To assess the anti-infarct effect of losartan, the area at risk was determined by methylene blue dye and the infarct size was determined by nitroblue tetrazolium chloride staining. The areas of risk and infarct were measured by computerized planimetry. Results demonstrated that the low and intermediate doses (2 and 5 mg/kg) of losartan significantly decreased the incidence of ventricular fibrillation and mortality during the ischemic period induced by left coronary artery occlusion. However, a significant reduction in infarct size, calculated as a percentage of the area at risk, was noted in all three losartan-treated groups (control: 41.5% +/- 5.2%, losartan, 2 mg/kg: 11.2% +/- 5.8%, 5 mg/kg: 8.5% +/- 2.7% and 10 mg/kg: 13.7% +/- 1.6%). The results suggest that losartan may be useful in the treatment of ventricular arrhythmias induced by acute myocardial infarction and attenuation of reperfusion injury in hypertension.
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PMID:Losartan attenuates myocardial ischemia-induced ventricular arrythmias and reperfusion injury in spontaneously hypertensive rats. 927 79

The present studies determined the effect of renal ischemia/reperfusion on components of the intrarenal renin-angiotensin system in rats and evaluated the effect of AT1 angiotensin (ANG) II receptor blockade on functional recovery. After bilateral renal pedicle occlusion for 60 min, serum creatinine increased, peaking at 72 h, and returned to sham levels after 120 h. ANG II levels in ischemic kidneys were significantly increased 24 h after reperfusion but did not differ from levels in sham kidneys after 120 h. Both renal cortical angiotensinogen mRNA and proximal tubular AT1 receptor mRNA were significantly reduced early after reperfusion, returning to sham levels by 120 and 72 h, respectively. AT2 ANG II receptor mRNA was undetectable in proximal tubules from sham rats but was consistently present in ischemic rats at 120 h. By histoautoradiography, we found that binding of 125I-labeled ANG II was preserved in glomeruli but was decreased in whole cortex and outer medulla early after reperfusion and was completely blocked by the AT1 antagonist losartan. Treatment of rats with losartan (25 mg/kg s.c. daily), starting at the time of reperfusion, had no effect on expression of proliferating cell nuclear antigen in cortical tubules but caused a significant decrease in serum creatinine at 72 h (ischemia: 334 +/- 69 microM vs. ischemia + losartan: 135 +/- 28 microM; P < 0.025, n = 6). These data indicate that renal ischemic injury causes an early increase in intrarenal ANG II levels, associated with reduction of mRNA for angiotensinogen and proximal tubular AT1 receptors, and maintenance of glomerular ANG II binding. Losartan accelerates recovery of renal function, suggesting that activation of AT1 receptors impairs glomerular filtration in the postischemic kidney.
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PMID:Role of AT1 angiotensin II receptors in renal ischemic injury. 945 26

We tested the hypothesis that endogenous angiotensin II participates in the direct and reflex effects of adenosine on the sympathetic nervous system. Nine healthy men were studied after 1 wk of the angiotensin II type I receptor antagonist losartan (100 mg daily) or placebo, according to a double-blind randomized crossover design. Bilateral forearm blood flows, NE appearance rates, and total body NE spillover were determined before and during graded brachial arterial infusion of adenosine (0.5, 1.5, 5, and 15 microg/100 ml forearm tissue) and nitroprusside. Adenosine increased total body NE spillover (P < 0.05) whereas nitroprusside did not. Losartan lowered BP (P < 0.05), had no effect on total body NE spillover at rest, or forearm vasodilation during either infusion, but reduced the systemic noradrenergic response to adenosine from 1.0+/-0.4 nmol/min on the placebo day to 0.2+/-0.3 nmol/min (P < 0.01), and forearm NE appearance rate in response to adenosine was lower in the infused, as compared with the contralateral arm (P = 0.04). The sympatho-excitatory reflex elicited by adenosine is mediated through pathways involving the angiotensin II type I receptor. Interactions between adenosine and angiotensin II may assume importance during ischemia or congestive heart failure and could contribute to the benefit of converting enzyme inhibition in these conditions.
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PMID:Angiotensin AT1 receptor blockade abolishes the reflex sympatho-excitatory response to adenosine. 946 71

To determine whether intrinsic angiotensin II (ANG II) type 1 receptor (AT1-R) stimulation modulates recovery of postischemic mechanical function, we studied the effects of selective AT1-R blockade with losartan on proton production from glucose metabolism and recovery of function in isolated working rat hearts perfused with Krebs-Henseleit buffer containing palmitate, glucose, and insulin. Aerobic perfusion (50 min) was followed by global, no-flow ischemia (30 min) and reperfusion (30 min) in the presence (n = 10) or absence (n = 14) of losartan (1 mumol/l) or the cardioprotective adenosine A1 receptor agonist N6-cyclohexyladenosine (CHA, 0.5 mumol/l, n = 11). During reperfusion in untreated hearts (controls), left ventricular (LV) minute work partially recovered to 38% of aerobic baseline, whereas proton production increased to 155%. Compared with controls, CHA improved recovery of LV work to 79% and reduced proton production to 44%. Losartan depressed recovery of LV work to 0% without altering proton production. However, exogenous ANG II (1-100 nmol/l) in combination with losartan restored recovery of LV work during reperfusion in a concentration-dependent manner, suggesting that postischemic recovery of function depends on intrinsic AT1-R stimulation.
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PMID:Intrinsic ANG II type 1 receptor stimulation contributes to recovery of postischemic mechanical function. 961 59

The purpose of this study was to determine whether ischemic preconditioning protects contractile function in hypertrophied rat myocardium from ischemia-reperfusion (I/R) injury. Male salt-sensitive rats were fed a high-salt diet for 2 wk to induce myocardial hypertrophy. Nonhypertrophied hearts were obtained from age-matched Sprague-Dawley (SD) rats fed a regular diet. Heart weight-to-body weight ratios were higher in salt-sensitive rats than in SD rats (6.9 +/- 0.2 vs. 4.7 +/- 0.2 g/kg, P < 0.01). A second group of salt-sensitive and SD rats was administered losartan (10 mg. kg(-1). day(-1)), an AT(1)-receptor blocker, for 1 wk before the study. Isolated hearts were preconditioned with transient ischemia before global I/R. After I/R, preconditioned hypertrophied hearts exhibited greater recovery of left ventricular developed pressure compared with that of preconditioned normal hearts (73 +/- 8 vs. 18 +/- 8%, P < 0.01). Left ventricular developed pressure was further enhanced by losartan in both hypertrophied and normal myocardium (99 +/- 5 vs. 73 +/- 8%, P < 0.05 and 97 +/- 15 vs. 18 +/- 8%, P < 0.01). Hypertrophied rat myocardium can be protected from I/R-induced contractile dysfunction by ischemic preconditioning. Losartan improves the ischemic tolerance of normal and hypertrophied myocardium.
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PMID:AT1-receptor blockade enhances ischemic preconditioning in hypertrophied rat myocardium. 1060 Aug 72

Losartan, a selective angiotensin II (AII) type I receptor antagonist, may protect against myocardial stunning and arrhythmia in ischemia and reperfusion. To examine the cellular basis for these protective actions, we studied effects of losartan and AII on contractile and electrical activity of ventricular myocytes exposed to simulated ischemia and reperfusion. Ionic currents were measured with voltage-clamp techniques and contractions were measured with a video edge detector. After 10 min of superfusion with Tyrode's solution at 37 degrees C, cells were exposed to simulated ischemia (hypoxia, acidosis, hyperkalemia, hypercapnia, lactate accumulation, and substrate deprivation) for 30 min followed by 25 min of reperfusion with normal Tyrode's solution. During ischemia, drug-treated cells were exposed to either 0.1 microM AII, 10 microM losartan, or both simultaneously. In reperfusion, contractions were depressed to 42% of preischemic levels in untreated cells. Losartan treatment significantly improved contractile recovery to 84% (P <. 05) of preischemic levels. AII-treated cells showed contractile recovery similar to untreated cells (40%), whereas cells treated with losartan plus AII recovered to 101% of preischemic levels. Cells exposed to losartan or losartan plus AII also exhibited reduced incidence of transient inward current (I(TI)) (20%, P <.05; 36%) relative to untreated cells (60%). However, I(TI) incidence was not altered by treatment with AII alone (57%). Treatment with exogenous agonist did not potentiate contractile depression or I(TI) incidence, and losartan exerted protective effects in the presence and absence of AII. Thus, losartan may have effects that are independent of AII receptor blockade.
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PMID:Losartan improves recovery of contraction and inhibits transient inward current in a cellular model of cardiac ischemia and reperfusion. 1104 8

Experimental renal ischaemic injuries are typically produced by temporary closure of the renal artery. In rats, two different methods of such temporary closure of the renal artery were compared: snaring of the artery by tourniquet, and clamping by a microsurgical bulldog clamp. The consequences of ischaemic periods 60, 90 and 120 minutes were evaluated. In different experimental series, the potential protective effect of non-peptic AT1 angiotensin II receptor antagonist losartan on postischaemic renal injury was evaluated. The seven-day survival and the degree of functional renal damage (according to the plasma levels of creatinine and urea) were analyzed 24 hours and 7 days after experimental renal ischaemia. Ischaemia, produced by the tourniquet led to a more significant renal damage than ischaemia caused by clamping of the renal artery by a microclamp (higher 7-day mortality rate, higher postischaemic plasma levels of creatinine and urea). Losartan decreased the consequences of renal ischaemia caused by the tourniquet, but did not change the outcome of renal ischaemia produced by microsurgical bulldog clamps. We found, that not only the duration of ischaemia and pharmacology, but even the surgical technique of producing renal ischaemia are important factors in experimental studies evaluating ischaemic renal damage. These findings provide evidence of the role of angiotensin II in postischaemic renal injury by a renal tourniquet. This particular mechanism is probably not involved, when renal artery is gently temporarily closed by a bulldog microclamp.
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PMID:[Experimental ischemic renal injury--effect of surgical technique and the protective effect of a nonpeptide angiotensin II antagonist (losartan)]. 1107 68

The aim of this study was to explore the possible participation of cardiac renin-angiotensin system (RAS) in the ischemia-reperfusion induced changes in heart function as well as Ca2+-handling activities and gene expression of cardiac sarcoplasmic reticulum (SR) proteins. The isolated rat hearts, treated for 10 min without and with 30 microM captopril or 100 microM losartan, were subjected to 30 min ischemia followed by reperfusion for 60 min and processed for the measurement of SR function and gene expression. Attenuated recovery of the left ventricular developed pressure (LVDP) upon reperfusion of the ischemic heart was accompanied by a marked reduction in SR Ca2+-pump ATPase, Ca2+-uptake and Ca2+-release activities. Northern blot analysis revealed that mRNA levels for SR Ca2+-handling proteins such as Ca2+-pump ATPase (SERCA2a), ryanodine receptor, calsequestrin and phospholamban were decreased in the ischemia-reperfused heart as compared with the non-ischemic control. Treatment with captopril improved the recovery of LVDP as well as SR Ca2+-pump ATPase and Ca2+-uptake activities in the postischemic hearts but had no effect on changes in Ca2+-release activity due to ischemic-reperfusion. Losartan neither affected the changes in contractile function nor modified alterations in SR Ca2+-handling activities. The ischemia-reperfusion induced decrease in mRNA levels for SR Ca2+-handling proteins were not affected by treatment with captopril or losartan. The results suggest that the improvement of cardiac function in the ischemic-reperfused heart by captopril is associated with the preservation of SR Ca2+-pump activities; however, it is unlikely that this action of captopril is mediated through the modification of cardiac RAS. Furthermore, cardiac RAS does not appear to contribute towards the ischemia-reperfusion induced changes in gene expression for SR Ca2+-handling proteins.
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PMID:Role of cardiac renin-angiotensin system in sarcoplasmic reticulum function and gene expression in the ischemic-reperfused heart. 1110 55


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