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)

Bradykinin receptor activation has been proposed to be involved in ischemic preconditioning. In the present study, we further investigated the role of this agent in preconditioning in both isolated and in situ rabbit hearts. All hearts were subjected to 30 minutes of regional ischemia followed by reperfusion for 2 hours (in vitro hearts) and 3 hours (in situ hearts). Infarct size was measured by tetrazolium staining and expressed as a percentage of the size of the risk zone. Preconditioning in situ hearts with 5 minutes of ischemia and 10 minutes of reperfusion significantly reduced infarct size to 10.2 +/- 2.2% of the risk region (P < .0005 versus control infarct size of 36.7 +/- 2.6%). Pretreatment with HOE 140 (26 micrograms/kg), a bradykinin B2 receptor blocker, did not alter infarct size in nonpreconditioned hearts (40.6 +/- 5.3% infarction) but abolished protection from ischemic preconditioning (34.1 +/- 1.6% infarction). However, when HOE 140 was administered during the initial reflow period following 5 minutes of ischemia, protection was no longer abolished (15.6 +/- 3.9% infarction versus 13.3 +/- 3.8% without HOE 140, P = NS). Bradykinin infusion in isolated hearts mimicked preconditioning, and protection was not affected by pretreatment with the nitric oxide synthase inhibitor N omega-nitro-L-arginine methyl ester or the prostaglandin synthesis inhibitor indomethacin but could be completely abolished by the protein kinase C (PKC) inhibitors polymyxin B and staurosporine as well as by HOE 140. HOE 140 could not block the protection of ischemic preconditioning in isolated hearts. That failure was apparently due to the absence of blood-borne kininogens rather than autonomic nerves. When the preconditioning stimulus in the in situ model was amplified with four cycles of 5-minute ischemia/10-minute reperfusion, HOE 140 pretreatment could no longer block protection (infarct size was 10.7 +/- 3.5% versus 6.4 +/- 2.0% without HOE 140, P = NS). We propose that bradykinin receptors protect by coupling to PKC as do adenosine receptors, and blockade of either receptor will diminish the total stimulus of PKC below threshold and prevent protection. A more intense preconditioning ischemic stimulus can overcome bradykinin receptor blockade, however, by simply enhancing the amount of adenosine and possibly other agonists released.
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PMID:Role of bradykinin in protection of ischemic preconditioning in rabbit hearts. 764 31

We tested the hypotheses that maintaining the activity of nitric oxide by L-arginine infusion would counteract the release of an endogenous nitric oxide synthase inhibitor, improve survival, and decrease intraoperative hypertension after infrarenal aortic cross-clamp surgery. Hindlimb ischemia was generated by infrarenal aortic cross-clamping and tying of the left femoral artery for 5 hours in rats with bilateral femoral and sciatic nerves cut. Mean blood pressure significantly increased during the 5-hour ischemic period in ischemic rats (no drug treatment). Baroreceptor function was inhibited in ischemic rats assessed by intravenous dose response to phenylephrine and nitroprusside after 5 hours of ischemia, suggesting baroreceptor resetting. In ischemic rats infused with L-arginine the intraoperative hypertension was prevented during the 5-hour period, suggesting that this hypertension may be mediated by nitric oxide inhibition. The rates of survival and arrhythmias 2 hours after declamping were 50% in ischemic rats and 100% in ischemic rats treated with N omega-nitro-L-arginine (a nitric oxide synthase inhibitor) 10 minutes before declamping. In ischemic rats infused with L-arginine the survival rate was significantly increased to 100% and the arrhythmic rate was inhibited. We conclude that L-arginine prevents hypertension during cross-clamping and decreases the mortality rate and arrhythmias after declamping by maintaining nitric oxide synthesis. These results suggest that humoral factors released from the ischemic hindlimb may inhibit endogenous nitric oxide production, thus contributing to intraoperative hypertension, arrhythmias, and high mortality rate after aortic cross-clamp surgery.
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PMID:Stimulation of endogenous nitric oxide pathway by L-arginine reduces declamp mortality and attenuates hypertension associated with aortic cross-clamp-induced hindlimb ischemia in rats. 764 74

The effect of L-arginine, the precursor of nitric oxide, on ischemic dopamine release from the striatum was investigated in Mongolian gerbils subjected to bilateral carotid artery occlusion (15 min) alone or with reflow (2 h). Dopamine and its metabolites were measured in the striatal extracellular space dialysate after continuous perfusion (2 microliters/min) of artificial extracellular fluid in the presence or absence of 15 mmol/liter L- or D-arginine or 1 mmol/liter nitro-L-arginine. L-Arginine but not D-arginine increased the striatal content of dopamine in pre- and postischemia whereas it lowered the levels of dopamine and 3-methoxytyramine induced by ischemia. In contrast, nitro-L-arginine reduced the preischemic levels of dopamine and 3,4-dihydroxyphenyl-acetic acid, and had no effect on the ischemic release of dopamine. These findings indicate that L-arginine stereospecifically modified the ischemic release and metabolism of dopamine. The data also suggest that the basal level of nitric oxide is not involved in dopamine release during ischemia but may participate in regulating dopamine release under physiological conditions.
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PMID:Modulation of striatal dopamine release in cerebral ischemia by L-arginine. 765 86

The authors examined the effects of both intermittent reperfusion and nitric oxide synthase (NOS) inhibition, caused by NG-nitro-L-arginine methyl ester (L-NAME) during episodes of focal cerebral ischemia induced to simulate the neurosurgical setting. Seventy-eight Wistar rats underwent single (60 minutes of ischemia) or repetitive (four 15-minute periods of ischemia separated by 5 minutes of reperfusion) episodes of middle cerebral artery occlusion while under anesthesia (1.0% halothane). Twenty-four hours after the procedure, the animals were given neurological examinations and then sacrificed for histological preparation and examination. The intermittent reperfusion groups tended to have smaller mean cortical infarctions. There was also a trend showing a decrease in infarction size in groups given L-NAME. The combination of intermittent reperfusion and preischemic administration of L-NAME (10 mg/kg) resulted in a 65% reduction in infarction size (p < 0.05) when compared to that caused by 60 minutes of single occlusion without L-NAME. The use of NOS inhibition combined with intermittent reperfusion may be a technique to provide intraoperative cerebral protection during neurovascular procedures that require temporary vascular occlusion.
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PMID:Effect of intermittent reperfusion and nitric oxide synthase inhibition on infarct volume during reversible focal cerebral ischemia. 766 28

The coronary vascular endothelium produces nitric oxide (NO) during the conversion of L-arginine to L-citrulline. Although NO is a potent vasodilator, at lower concentrations, it also has antineutrophil actions that reduce the inflammatorylike components of ischemia-reperfusion injury. The endothelium is damaged in the early minutes after reperfusion, ie, before neutrophils accumulate and before myocardial necrosis fully develops, and this suggests that endothelial injury is a springboard event in the postischemic inflammatory cascade. Studies of coronary artery occlusion and reperfusion suggest that early damage to the coronary endothelium impairs NO production, which, in turn, abrogates the endogenous antineutrophil effects of NO. However, this impaired endogenous NO-related cardioprotection can be restored either by providing specifically at the onset of reperfusion the precursor to NO (L-arginine) or by providing agents that donate NO. In studies, L-arginine or NO donors reduce infarct size in models of coronary occlusion and reperfusion. The mechanism or mechanisms of this cardioprotection involve preservation of endothelial function and inhibition of neutrophil accumulation in ischemic-reperfused tissue. The cardioprotective potential of NO offers a new therapeutic approach to the reduction of ischemia-reperfusion injury after coronary artery occlusion.
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PMID:Attenuation of myocardial ischemia-reperfusion injury with nitric oxide replacement therapy. 767 45

Increased release of endothelium-derived relaxing factor/nitric oxide has been proposed as the final common pathway for vasodilator responses to gram-negative lipopolysaccharide (endotoxin). To test this hypothesis, we examined endothelium-dependent and endothelium-independent vasodilator agents in vascular smooth muscle isolated from guinea pigs 16 hours after injection of saline (control group) or induction of Escherichia coli endotoxemia; aortic rings (approximately 1 mm in diameter) were studied with standard isometric tension techniques. Endotoxemia resulted in a significant loss of vasodilator responses to the endothelium-dependent receptor agonists acetylcholine (10(-10)-10(-5) M) and ADP (10(-8)-10(-5) M). In contrast, endotoxemia did not affect vasodilator responses to either the endothelium-dependent receptor agonist substance P (10(-11)-10(-7) M), the endothelium-dependent and receptor-independent agonist A23187 (10(-9)-10(-6) M), or the endothelium-independent agonist nitroprusside (10(-10)-10(-4) M). The nitric oxide synthase inhibitor NG-nitro-L-arginine methyl ester (L-NAME) inhibited the vasodilator response to acetylcholine more in vessels from lipopolysaccharide-injected than control guinea pigs. Unexpectedly, L-NAME converted the endothelium-dependent vasodilator action of ADP to an endothelium-dependent vasoconstrictor response that was blocked individually by the cyclooxygenase inhibitor indomethacin, the thromboxane synthase inhibitor dazoxiben, and the thromboxane A2 receptor antagonist SQ29548. We conclude that in vivo endotoxemia inhibits the constitutive isoform of nitric oxide synthase in endothelial cells by selectively disrupting receptor-coupled activation mechanisms shared by acetylcholine and ADP. Furthermore, since L-NAME unmasks a thromboxane A2-mediated vasoconstrictor action of the endogenous purinoceptor agonist ADP, drugs that inhibit nitric oxide synthase could exacerbate sepsis-induced vasoconstriction and ischemia by synergizing with lipopolysaccharide-induced inhibition of endothelial nitric oxide synthase.
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PMID:Selective inhibition of endothelium-dependent vasodilator capacity by Escherichia coli endotoxemia. 767 34

1. Ischaemia-reperfusion injury in the kidney is associated with a loss of autoregulation, an increase in renal vascular resistance (RVR), a decrease of renal blood flow (RBF) and ultimately acute renal failure. The aim of this study was to investigate the role of the release of endogenous nitric oxide (NO) in the recovery of RBF after ischaemic injury of the renal vascular bed. 2. Anaesthetized rats (thiopentone sodium; 120 mg kg-1, i.p.) were submitted to acute renal ischaemia followed by 2 or 6 h of reperfusion (I/R). Reperfusion was associated with a significant reduction in RBF, an increase in RVR, and an impairment of the vasodilator effect of acetylcholine (ACh). 3. NG-nitro-L-arginine methyl ester (L-NAME, 30 micrograms kg-1 min-1, i.v., n = 5) significantly prevented the recovery of RBF after I/R injury. Similarly, inhibition of prostanoid formation with indomethacin (5 mg kg-1, i.v., n = 4) significantly enhanced the rise in RVR associated with I/R injury. 4. Infusion of L-arginine (L-Arg; 1 or 3 mg kg-1 min-1, i.v., n = 5 and 4, respectively) or D-Arg (1 mg kg-1 min-1, i.v., n = 6), starting 30 min after occlusion, did not improve the recovery of RBF. Furthermore, infusion of L-Arg (20 mg kg-1 min-1 for 15 min; n = 4) had no effect on the I/R-induced impairment of the vasodilator responses to ACh. 5. To elucidate the relative importance of the constitutive and inducible NO synthase isoforms for the formation of NO after I/R, calcium-dependent (constitutive) and calcium-independent (inducible) NO synthase activities were measured in kidney homogenates obtained from ischaemic or non-ischaemic kidneys. A calcium-independent NO synthase activity was not detectable in kidney homogenates obtained from either sham-operated control rats or from animals subjected to I/R. Moreover, dexamethasone(3 mg kg-1, i.v., 60 min prior to I/R, n = 6), an inhibitor of the induction of NO synthase,had no effect on either RBF or RVR in rats subjected to I/R. In contrast to I/R, lipopolysaccaride(LPS, endotoxin; 5 mg kg-1, i.p., n = 3) caused a significant induction of a calcium-independent NO synthase activity in the kidney.6. These results confirm the importance of the release of vasodilator cyclo-oxygenase metabolites in the compromised renal circulation and indicate that the formation of NO derived from the constitutive, but not the inducible NO synthase, is also important for the maintenance of RBF after I/R injury of the renal vascular bed.
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PMID:Support of renal blood flow after ischaemic-reperfusion injury by endogenous formation of nitric oxide and of cyclo-oxygenase vasodilator metabolites. 768 1

We have reported previously that posttreatment with NG-nitro-L-arginine methyl ester (L-NAME), an inhibitor of the nitric oxide synthase, reduced the volume of cortical and striatal infarct induced by middle cerebral artery occlusion in rats. In the present study, we investigated the mechanisms by which L-NAME (3 mg/kg i.p.) is neuroprotective in this model of cerebral ischemia. First, we have shown the reversal of the neuroprotective effect of L-NAME by a coinjection of L-arginine. Second, in order to determine by which mechanism nitric oxide exacerbates neuronal damage produced by focal cerebral ischemia, we studied the effect of the inhibition of nitric oxide synthase by L-NAME on the histological consequences of a focal injection of N-methyl-D-aspartate (NMDA) in the striatum, and on the striatal overflow of glutamate and aspartate induced either by K+ depolarization or by focal cerebral ischemia. We have found that L-NAME treatment reduced the excitotoxic damage produced by NMDA injection. By using microdialysis, we have shown that the K(+)- and the ischemia-induced glutamate efflux was reduced by 52 and 30%, respectively, after the L-NAME treatment. These results indicate that nitric oxide synthesis induced by the NMDA receptor overstimulation is one of the major events leading to neuronal damage. One possible mechanism by which nitric oxide may contribute to the excitotoxic process is by facilitating the ischemia-induced glutamate overflow.
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PMID:Mechanisms involved in the neuroprotective activity of a nitric oxide synthase inhibitor during focal cerebral ischemia. 768 58

The effects of nitric oxide synthase (NOS) inhibition on extracellular glutamate release were investigated in rats during global brain ischemia and reperfusion (IR) using cerebral microdialysis. A dialysis probe was inserted into the hippocampus of anesthetized rats. Forebrain ischemia was produced by hypotension and occlusion of both carotid arteries. After 15 min, brain flow was restored for 60 min. Time-dependent changes in the dialysate glutamate concentration were analyzed with HPLC in both control rats and those treated with N omega-nitro-L-arginine methyl ester 30 min prior to ischemia. The data show that the NOS inhibitor did not prevent glutamate release from hippocampus during ischemia. Inhibition of NOS also enhanced glutamate release during reperfusion resulting in dialysate concentrations up to 10 times higher than control values.
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PMID:Inhibition of nitric oxide synthase increases extracellular cerebral glutamate concentration after global ischemia. 769 95

The gastrointestinal tract is a major immunologic organ that must be maximally supported during critical illness. Gastrointestinal tissues require direct contact with nutrients to support their own rapid cellular turnover rate and carry out the multitude of metabolic and immunologic functions needed for successful adaptation to stress. Disruption in the ecologic equilibrium of the gastrointestinal tract often occurs during critical illness and the therapies provided. Problems encountered include stress ulcers, intestinal ischemia, bacterial overgrowth, aspiration pneumonia, bacterial translocation, sepsis, and the systemic inflammatory response syndrome. Early enteral nutrition has been shown to be a viable, economic, and physiologically beneficial way to support the gastrointestinal tract during critical illness. The fortification of enteral formulas with glutamine, arginine, or fiber is being studied to determine each one's unique role in the gut and immunologic changes that occur with severe stress.
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PMID:The role of the gut in critical illness. 774 36


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