UMLS:C0022116 - FACTA Search

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Query: UMLS:C0022116 (ischemia)
91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Immediately after hepatic reperfusion in human orthotopic liver transplantation, high amounts of arginase are released from the graft, thereby influencing nitric oxide metabolism. This metabolic alteration may be one component of the ischemia-reperfusion syndrome in OLT with its hemodynamic disturbances (e.g., systemic hypotension, pulmonary hypertension). The aim of this study was to compare hemodynamic and metabolic changes following OLT in the pigs with those obtained under arginase infusions in catheterized, anesthetized pigs. Following liver revascularization in the pigs, plasma arginase concentrations increased from 48 +/- 19 IU/L to 2613 +/- 944 IU/L, resulting in a drop in plasma levels of L-arginine (-87%) and in a drop in nitrite (-82%) and nitrate (-53%) concentrations. Of the measured organ-specific hemodynamic alterations, the mean pulmonary arterial pressure increased from 17 +/- 2 mmHg to 30 +/- 5 mmHg, whereas the flow/pressure index of the portal vein decreased about 60%. A primed continuous infusion of arginase (25,000 IU) increased plasma arginase levels to a maximum of 3,690 +/- 962 IU and evoked a decrease of L-arginine, but did not alter plasma nitrite or nitrate levels. The administration of arginase in healthy pigs did not influence cardiac output, mean arterial pressure, heart rate, or total peripheral resistance, but led to an increase of mean pulmonary arterial pressure from 19 +/- 3 to 48 +/- 5 mmHg and to a reduction of arterial hepatic blood flow from 229 +/- 65 ml/min to 154 +/- 41 ml/min. From this we conclude that high levels of liver arginase cause hemodynamic alterations in the lung and the liver. We hypothesize that the pulmonary hypertension and the reduced hepatic blood flow found during the immediate reperfusion period after OLT are possibly related to the increased arginase release due to the hepatic damage of the graft.
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PMID:Arginase release following liver reperfusion. Evidence of hemodynamic action of arginase infusions. 777 69

The reciprocal changes of NOS and arginase activity during acute myocardial ischaemia (90 min) and reperfusion (180 min) was shown in experiments on chest-closed dogs with spontaneous breathing. NOS activity in the ischemia injured myocardial decreased on 60% while arginase activity increased on 487%. Levels of both alternative pathways of L-arginine metabolism altered reciprocally too. NO2(-)-level was reduced on 57%, and urea level increased on 665%. The same changes were in arterial blood, started from 10 min of ischemia. These changes can play an important role for development of acute ischaemia treatment.
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PMID:[Changes of nitric oxide system during acute myocardial ischemic reperfusion]. 1142 61

Acute renal failure (ARF) is a serious damage of renal function induced by various nephrotoxic drugs, ischemia, bilateral urethral obstruction, trauma and unilateral nephrectomy. Dramatic clinical syndrome, azotemia, develops as a result of hypovolemia, oliguria, reduced glomerular filtration and acidosis. In addition to classic medications recent studies give more attention to beneficial effect of natural plant products as bioflavonoids. We have studied the influence of bioflavonoid, quercetin, on hepatic urea production in glycerol induced ARF in the rats. Male Sprague Dawley rats were used in the experiment. The value of urea production in the liver was determined by measuring of liver arginase activity, the terminal enzyme of urea cycle. Arginase activity was increased (p < 0.01) as well as urea level (p < 0.001) 48 h after glycerol administration. Pretreatment by quercetin suppressed the arginase activity in the liver (p < 0.05) and plasma levels of urea (p < 0.01). So, we have concluded that quercetin may be beneficial in glycerol induced ARF.
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PMID:Role of quercetin on hepatic urea production in acute renal failure. 1273 22

A reduction in L-arginine availability has been implicated in the impairment of endothelium-dependent nitric oxide (NO)-mediated vasodilation by ischemia-reperfusion (I/R). However, the mechanisms contributing to dysregulation of the L-arginine pool remain unknown. Because endothelial cells can metabolize L-arginine via two major enzymes, that is, NO synthase (NOS) and arginase, we hypothesized that up-regulation of arginase during I/R reduces L-arginine availability to NOS and thus impairs NO-mediated vasodilation. To test this hypothesis, a local I/R was produced in the porcine heart by occlusion of a small branch of left anterior descending artery for 30 min, followed by reperfusion for 90 min. Arterioles (60-110 microm) isolated from non-ischemic and ischemic regions of subepicardium were cannulated and pressurized without flow for in vitro study. Vessels from both regions developed similar levels of basal tone. Although the dilation of I/R vessels to endothelium-independent agonist sodium nitroprusside was not altered, the endothelium-dependent NO-mediated dilations to adenosine and serotonin were attenuated. I/R not only inhibited arteriolar production of NO but also increased arteriolar arginase activity. Arginase inhibitor alpha-difluoromethylornithine enhanced NO production/dilation in normal vessels and also restored the NO-mediated function in I/R vessels. Treating I/R vessels with L-arginine also restored vasodilations. Immunohistochemical data revealed that I/R up-regulated arginase but down-regulated NOS expression in the arteriolar endothelium. Pretreating the animals with protein synthesis inhibitor cycloheximide prevented I/R-induced arginase up-regulation and also preserved NO-mediated vascular function. These results suggest that one mechanism by which I/R inhibits NO-mediated arteriolar dilation is through increased arginase activity, which limits the availability of L-arginine to NOS for NO production. In addition, the inability of arginase blockade or L-arginine supplementation to completely restore vasodilatory function may be attributable to the down-regulation of endothelial NOS expression.
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PMID:Ischemia-reperfusion selectively impairs nitric oxide-mediated dilation in coronary arterioles: counteracting role of arginase. 1456 85

The polyamines (spermine, putrescine, and spermidine) can have neurotoxic or neuroprotective properties in models of neurodegeneration. However, assessment in a model of hypoxia-ischemia (HI) has not been defined. Furthermore, the putative mechanisms of neuroprotection have not been elucidated. Therefore, the present study examined the effects of the polyamines in a rat pup model of HI and determined effects on key enzymes involved in inflammation, namely, nitric oxide synthase (NOS) and arginase. In addition, effects on mitochondrial function were investigated. The polyamines or saline were administered i.p. at 10mg/kg/day for 6 days post-HI. Histological assessment 7 days post-HI revealed that only spermine significantly (P<0.01) reduced infarct size from 46.14 +/- 10.4 mm3 (HI + saline) to 4.9 +/- 2.7 mm3. NOS activity was significantly increased following spermine treatment in the left (ligated) hemisphere compared with nonintervention controls (P<0.01) and HI + saline (P<0.05). In contrast, spermine decreased arginase activity compared with HI + saline but was still significantly elevated in comparison to nonintervention controls (P<0.01). Assessment of mitochondrial function in the HI + saline group, revealed significant and extensive damage to complex-I (P<0.01) and IV (P<0.001) and loss of citrate synthase activity (P<0.05). No effect on complex II-III was observed. Spermine treatment significantly prevented all these effects. This study has therefore confirmed the neuroprotective effects of spermine in vivo. However, for the first time, we have shown that this effect may, in part, be due to increased NOS activity and preservation of mitochondrial function.
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PMID:Neuroprotective effects of spermine following hypoxic-ischemic-induced brain damage: a mechanistic study. 1513 86

Liver graft function after transplantation is dependent on ischemia-reperfusion injury, toxicity of drugs (immunosuppression, antibiotics and other) and transplant rejection. Although routinely monitored with enzymatic tests (AST, ALT, GGT, ALP), bilirubin and coagulation parameters, differentiation between these pathologies is hardly possible without liver biopsy. Arginase (3.5.3.1) mostly exists in the liver and in trace amounts in extra-hepatic tissue. Thus, we hypothesized that activity of arginase could be a more specific test of liver function. Sera of 32 liver transplant recipients were tested for AST, ALT, ATIII, bilirubin and arginase. Samples were obtained daily in first 2 weeks after LTx and weekly afterwards. Correlation of arginase activity with other liver function markers was calculated. Serum arginase peaked at day 1 post LTx (mean 64,6+/-91 IU/L), and decreased more rapidly than other tests if good liver function was observed. The values showed strong and significant correlation with AST and ALT activities (Pearsons R 0,65 and 0,47 respectively). We conclude that activity of arginase in the serum is an exact test of liver function.
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PMID:Clinical significance of arginase after liver transplantation. 1575 50

Damage after hypoxia-ischemia (HI) is observed in both cortical and subcortical regions. In this study, we employed a "Levine" rat model of HI (left carotid ligation + 1 h global hypoxia on PND-26) and used histological and electrophysiological paradigms to assess the long-term neuroprotective properties of clomethiazole (CMZ; a GABA(A) receptor modulator). Key enzymes involved in inflammation, namely nitric oxide synthase (NOS) and arginase, were also examined to assess potential CMZ mechanisms not involving GABA-R activation. Assessments were carried out 3 and 90 days post-HI. Extensive CNS lesions were evident after HI ipsilaterally at both short- and long-term intervals. CMZ significantly decreased the lesion size at 3 and 90 days (P<0.01; P<0.05). Evoked field potential analyses were used to assess hippocampal CA1 neuronal activity ex vivo. Electrophysiological measurements contralateral to the occlusion revealed impaired neuronal function after HI relative to short- and long-term controls (P<0.001, 3 and 14 days; P<0.01, 90 days), with CMZ treatment providing near complete protection (P<0.001 at 3 and 14 days; P<0.01 at 90 days). Both NOS and arginase activities were significantly increased at 3 days (P<0.01), with arginase remaining elevated at 90 days post-HI (P<0.05) ipsilaterally. CMZ suppressed the HI-induced increase in iNOS and arginase activities (P<0.001; P<0.05). These data provide evidence of long-term functional neuroprotection by CMZ in a model of HI. We further conclude that under conditions of HI, functional deficits are not restricted to the ipsilateral hemisphere and are due, at least in part, to changes in the activity of NOS and arginase.
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PMID:Clomethiazole: mechanisms underlying lasting neuroprotection following hypoxia-ischemia. 1580 57

Liver ischemia-reperfusion (I/R) injury is associated with profound arginine depletion due to arginase release from injured hepatocytes. The purpose of this study was to determine whether arginase inhibition with N(omega)-hydroxy-nor-l-arginine (nor-NOHA) would increase circulating arginine levels and decrease hepatic damage during liver I/R injury. The effects of nor-NOHA were initially tested in normal animals to determine in vivo toxicity. In the second series of experiments, orthotopic syngeneic liver transplantation (OLT) was performed after 18 h of cold ischemia time in Lewis rats. Animals were given nor-NOHA (100 mg/kg) or saline before and after graft reperfusion. In normal animals treated with nor-NOHA, there were no histopathological changes to organs, liver enzymes, serum creatinine, or body weight. In the OLT model, animals treated with saline exhibited markedly elevated serum transaminases and circulating arginase protein levels. Nor-NOHA administration blunted the increase in serum arginase activity by 80% and preserved serum arginine levels at 3 h after OLT. Nor-NOHA treatment reduced post-OLT serum liver enzyme release by 50%. Liver histology (degree of necrosis) in nor-NOHA-treated animals was markedly improved compared with the saline-treated group. Furthermore, use of the arginase inhibitor nor-NOHA did not influence polyamine synthesis owing to the decrease in ornithine levels. Arginase blockade represents a potentially novel strategy to combat hepatic I/R injury associated with liver transplantation.
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PMID:Liver I/R injury is improved by the arginase inhibitor, N(omega)-hydroxy-nor-L-arginine (nor-NOHA). 1702 52

L-citrulline is the natural precursor of L-arginine, substrate for nitric oxide synthase (NOS) in the production of NO. Supplemental administration L-arginine has been shown to be effective in improving NO production and cardiovascular function in cardiovascular diseases associated with endothelial dysfunction, such as hypertension, heart failure, atherosclerosis, diabetic vascular disease and ischemia-reperfusion injury, but the beneficial actions do not endure with chronic therapy. Substantial intestinal and hepatic metabolism of L-arginine to ornithine and urea by arginase makes oral delivery very ineffective. Additionally, all of these disease states as well as supplemental L-arginine enhance arginase expression and activity, thus reducing the effectiveness of L-arginine therapy. In contrast, L-citrulline is not metabolized in the intestine or liver and does not induce tissue arginase, but rather inhibits its activity. L-citrulline entering the kidney, vascular endothelium and other tissues can be readily converted to L-arginine, thus raising plasma and tissue levels of L-arginine and enhancing NO production. Supplemental L-citrulline has promise as a therapeutic adjunct in disease states associated with L-arginine deficiencies.
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PMID:Therapeutic use of citrulline in cardiovascular disease. 1721 3

Evidence indicates that nitric oxide (NO) deficiency contributes to micturition disorders, especially in the afferent pathway and erectile dysfunction (ED). Two possible causes of NO deficiency are substrate (L-arginine) limitation and increased levels of endogenous inhibitors of NO synthase (particularly asymmetric dimethylarginine: ADMA) in plasma and tissues. Elevated tissues of ADMA and N(G)-monomethyl-L-arginine (L-NMMA) have been reported to be associated with impaired NO-mediated urethral, trigonal and cavernosal relaxations by pelvic ischemia. Also, plasma ADMA may help to identify underlying cardiovascular disease in men with ED. Decreased l-arginine availability to NO synthase is due to the shunting of L-arginine into other pathways such as arginase. Interaction between NO synthase and arginase has been reported to be involved in NO-mediated urethral and prostatic relaxations. Also, increased arginase activity in cavernosal tissues likely contributes to the ED that accompanies diabetes mellitus and aging. Therefore, arginase inhibition has been reported to enhance the NO-dependent physiological process for erectile function.
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PMID:Significance of nitric oxide and its modulation mechanisms by endogenous nitric oxide synthase inhibitors and arginase in the micturition disorders and erectile dysfunction. 1826 46

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