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)

It has been proposed that free radical reactions are involved in ischemic brain damage. Since irreversible pathological changes occurs very early phase of the focal ischemia and the ischemic brain edema reaches its peak at about 2 days of ischemia, the free radical reactions must take place before these changes. Superoxide dismutase is a famous enzyme that dismutase superoxide anion, which is believed to be one of the initiator of the free radical reactions. If superoxide anion plays a pivotal role in the genesis of pathological ischemic brain damage and edema, the activity of the enzyme may decrease in the early phase of ischemia. Ascorbic acid is also known to be a scavenger of superoxide anion, and brain tissue contains it in a high concentration. We investigated the changes in superoxide dismutase activity and concentration of reduced ascorbate in focal ischemia. Focal ischemia was produced in rats by permanent occlusion of the left middle cerebral artery. The animals were decapitated 30 minutes, 4, 24, and 48 hours after the operation. Middle cerebral artery territory of each cerebral hemisphere was homogenized and centrifuged with phosphate buffer. The supernatant was divided into two aliquots; one was dialyzed to remove ascorbate and the other was not. The SOD activity was measured by electron-spin-resonance (ESR) spin trapping method, and the ascorbic acid concentration was measured by high performance liquid chromatography with electrochemical detection (HPLC-ECD). Protein concentration was measured by Lowry's method. The enzyme activity was expressed as unit/mg protein, and the ascorbic acid concentration was expressed as microgram/g tissue. The SOD activity decreased markedly by dialysis.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Temporal profile of the superoxide dismutase and the ascorbic acid in focal cerebral ischemia]. 179 14

Reperfusion after reversible ischemia has been shown to result in prolonged depression of contractile function ("myocardial stunning"). Recent studies suggest that oxygen free radicals may mediate postischemic dysfunction. Since heart sarcolemmal membranes, which contain several types of enzymes, ion channels and receptors play important roles to maintain cell functions, the present study was undertaken to examine the effects of oxygen free radicals on heart sarcolemmal membrane functions in vitro. In the presence of a superoxide anion radical-generating system (2mM xanthine plus 0.03 U/ml xanthine oxidase), sarcolemmal Ca(2+)-stimulated ATPase activity and ATP-dependent Ca2+ accumulation were inhibited in an incubating time-dependent manner. Both lipid peroxidation (r = 0.82) and sulfhydryl group content (r = 0.95) showed significant correlations with Ca(2+)-stimulated ATPase activity. ATP-independent Ca2+ bindings were increased upon treating the membranes with xanthine plus xanthine oxidase. Voltage-dependent Ca(2+)-channels were also affected by oxygen free radicals. The maximal number of binding sites (Bmax) for [3H]-nitrendipine binding was depressed without any changes in dissociation constant (Kd). The effects of oxygen free radicals on adrenergic receptors were more complex. Bmax for [3H]-dihydroalprenolol (DHA) binding (beta-receptor) was increased whereas Bmax for [3H]-prazosin binding [alpha 1-receptor) was decreased after incubating the membrane with xanthine plus xanthine oxidase. Kd for [3H]-DHA or [3H]-prazosin binding was increased. Superoxide dismutase showed protective effects on the changes in these membrane functions due to xanthine plus xanthine oxidase. It is suggested that oxygen free radicals damage heart sarcolemmal membrane functions which may lead to cardiac dysfunction in the stunned myocardium.
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PMID:Stunned myocardium and oxygen free radicals--sarcolemmal membrane damage due to oxygen free radicals. 183 72

The effect of reperfusion with and without free radical scavengers on sarcoplasmic reticulum and contractile function was examined in a canine model of 15-minute coronary artery occlusion followed by reperfusion. Dogs were reperfused with (n = 13) or without (n = 16) superoxide dismutase and catalase or were killed at 15 minutes of ischemia (n = 17). Superoxide dismutase and catalase were administered as a bolus (20,000 and 12,500 U/kg, respectively) beginning 1.25 minutes before reperfusion followed by infusion of 16,000 and 12,500 U/kg/hr, respectively. Sarcoplasmic reticulum function was evaluated from the rate of calcium uptake of unfractionated subepicardial, subendocardial, and transmural homogenates determined with and without ruthenium red to close the calcium release channel. Mechanical function was evaluated by means of sonomicrometry. Fifteen minutes of ischemia significantly (p less than 0.05) depressed the sarcoplasmic reticulum calcium uptake rate only in the subendocardium (from 25 +/- 2 to 14 +/- 1 nmol/min/mg without ruthenium red and from 60 +/- 3 to 49 +/- 3 nmol/min/mg with ruthenium red). Reperfusion with or without superoxide dismutase and catalase restored homogenate calcium uptake rates to normal, although severe contractile dysfunction persisted. This indicates that damage to the sarcoplasmic reticulum may not be the major cause of postreperfusion contractile dysfunction. Ischemia-reperfusion caused a decrease in systolic shortening from 19 +/- 2% to 1 +/- 2% with and from 18 +/- 1% to 4 +/- 1% without free radical scavengers (p = NS between groups). Thus administration of superoxide dismutase and catalase beginning shortly before reperfusion had no effect on postreperfusion contractile dysfunction or sarcoplasmic reticulum function.
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PMID:Effect of brief regional ischemia followed by reperfusion with or without superoxide dismutase and catalase administration on myocardial sarcoplasmic reticulum and contractile function. 195 Sep 87

Elevation of a vascular island flap 24 hours before an ischemic insult (prior elevation) has been shown to significantly increase flap survival, and to decrease blood thromboxane levels, compared with acutely ischemic flaps. The current study considered whether prior elevation causes other biochemical alterations that could be beneficial for flap survival. Tissue levels of adenosine triphosphate (a major tissue energy store), superoxide dismutase (a major defense against free radicals), xanthine oxidase (an enzymatic source of free radicals), and edema were measured. Rat epigastric flaps, with or without prior elevation, had 10 or 12 hours of acute ischemia. Biopsies were taken at 0, 12, or 24 hours after reperfusion. Skin from flaps with no ischemia (control flaps) or control skin was harvested at the same times. Acutely ischemic flaps had significantly lower levels of adenosine triphosphate and less edema than those in prior elevated ischemic flaps after 12 hours of ischemia (both, p less than 0.05). Superoxide dismutase and xanthine oxidase did not vary significantly. It is not clear whether the increased adenosine triphosphate level in prior elevated flaps is the cause or the result of increased tissue viability. Prior elevation did not alter free radical mechanisms. Furthermore, prior elevation was beneficial for flap survival despite increased edema.
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PMID:A biochemical study of acute ischemia in rodent skin free flaps with and without prior elevation. 195 13

We have applied the Luminol enhanced chemiluminescence technique to the isolated perfused rat liver during ischemia and reperfusion to monitor the production of oxygen radicals in tissue. Livers under perfusion with Luminol-containing buffer were subjected to 30 minutes of global ischemia followed by 60 minutes of reperfusion. Their chemiluminescence was continuously monitored to obtain the time course of oxygen radical production. Transient bursts of oxygen radical production were observed in the livers as indicated by chemiluminescence changes on reperfusion. Superoxide dismutase treatment abolished while catalase treatment enhanced the reperfusion-induced chemiluminescence transient.
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PMID:Oxygen radical production during ischemia-reperfusion in the isolated perfused rat liver as monitored by luminol enhanced chemiluminescence. 198 1

Oxygen free radicals have been implicated as mediators of cellular injury in ischemia-reperfusion. Since intracellular Ca(2+)-overload has been considered to play a crucial role in ischemia-reperfusion injury, this study was undertaken to examine the effects of oxygen free radicals on Ca(2+)-stimulated Mg(2+)-dependent ATPase activities and ATP-dependent Ca2+ accumulation in rat cardiac sarcolemmal membranes in vitro. Isolated rat heart sarcolemmal membranes were incubated with xanthine (X) + xanthine oxidase (XO) and assayed for Ca(2+)-pump activities. X + XO inhibited the Ca(2+)-pump activities in a time-dependent manner; a significant inhibition of Ca(2+)-stimulated ATPase activity was seen after one min of incubation. Superoxide dismutase showed a protective effect on depression in Ca(2+)-pump activities due to X + XO. To understand the involvement of sulfhydryl groups changes in causing depression of Ca(2+)-pump activities, the effects of oxygen free radicals on heart sarcolemmal sulfhydryl groups were also investigated. Heart sarcolemmal sulfhydryl groups were decreased by X + XO in a time-dependent manner. Superoxide dismutase showed a protective effect on sulfhydryl group depression caused by X + XO. N-ethylmaleimide, a sulfhydryl reagent, showed inhibitory effect on Ca(2+)-pump activities both in a time-, and a dose-dependent manner; dithiothreitol and cysteine prevented changes in Ca(2+)-pump activities caused by N-ethylmaleimide. The inhibitory effect of X + XO on Ca(2+)-pump activities were also prevented by the addition of dithiothreitol or cysteine. A significant correlation between changes in sarcolemmal Ca(2+)-stimulated ATPase activity and sarcolemmal sulfhydryl groups was seen.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Inhibition of heart sarcolemmal Ca(2+)-pump activity by oxygen free radicals. 202 66

Although the specific cause(s) of inflammatory bowel diseases (IBD) has not been identified, one theory suggests ischemia as the early event that occurs in IBD and reperfusion causes sustained release of oxyradicals, leading to inflammation and ulceration. In this study, we have confirmed that H2O2 in the concentration seen during ischemia/reperfusion is primarily responsible for cellular membrane damage in the rat colonic fragments in vitro. Hydrogen peroxide caused a time and dose-dependent increase in 6-keto-PGF1 alpha and TXB2 release. Hydrogen peroxide-stimulated 6-keto-PGF1 alpha release was blocked (50%) by phospholipase A2 (PLA2) inhibitors quinacrine and dimethyleicosadienoic acid at 5 min. Hydrogen peroxide-stimulated 6-keto-PGF1 alpha release was completely blocked by indomethacin, significantly blocked (69%) by nordihydroguiaretic acid, and completely blocked by catalase. Superoxide dismutase and uric acid failed to inhibit H2O2-stimulated 6-keto-PGF1 alpha release. Endogenous catalase inhibitors 3-aminotriazole and sodium azide further enhanced the release of 6-keto-PGF1 alpha stimulated by H2O2 by 29% and 73%, respectively. Xanthine-xanthine oxidase also increased 6-keto-PGF1 alpha release from the fragments by 110%. This release was not inhibited by superoxide dismutase and uric acid, but was completely inhibited by catalase. These studies suggest a direct effect of H2O2 on colonic fragments leading to submicroscopic cellular membrane damage and excess prostanoid production utilizing a PLA2/cyclooxygenase and catalase-sensitive pathway without the formation of toxic hydroxyl ions. The quick release of 6-keto-PGF1 alpha also suggests an early manifestation of H2O2-induced damage in rat colonic fragments.
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PMID:Hydrogen peroxide-induced alterations in prostaglandin secretion in the rat colon in vitro. 209 May 84

The influence of different drugs on ischemia induced oxygen free radical damage was examined in intestinal tissue of rats by determination of thiobarbituric acid reactive substances (TBARS). Some methodical aspects of this method were considered. Experiments were done with and without the use of polymerized stromafree hemoglobin (PHb) as an additional oxygen carrier. Reversible total occlusion of the superior mesenteric artery was performed for 90 min, reperfusion time was 2.5 hours. Despite higher O2 availability PHb did not increase the TBARS level any further. Superoxide dismutase with catalase; allopurinol; ciprofloxacin; and deferoxamine produced a highly significant reduction of TBARS, even if used together with PHb.
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PMID:Severity of oxygen free radical effects after ischemia and reperfusion in intestinal tissue and the influence of different drugs. 209 68

The effect of anoxia and reoxygenation on the synthesis and secretion of tissue-type plasminogen activator (t-PA) and plasminogen activator inhibitor-1 (PAI-1) was studied in primary cultures of human umbilical vein endothelial cells. Sublethal anoxia, determined by trypan blue dye exclusion and lactate dehydrogenase release, was produced by cell culture under a 95% N2, 5% CO2 atmosphere for 2-24 h and was followed by reoxygenation with 95% air, 5% CO2 for 24 or 48 h. Anoxia did not alter the levels of mRNA for t-PA or PAI-1 in the cells or the secretion of t-PA or PAI-1 into the medium. At 24 h, t-PA secreted into conditioned medium was 7.0 +/- 1.4 ng/2 x 10(6) cells (n = 9) and PAI-1 was 300 +/- 13 IU/2 x 10(6) cells (n = 9), whereas the content of t-PA mRNA was 2.2 pg/micrograms of RNA and PAI-1 mRNA was 180 pg/micrograms of RNA. During reoxygenation, however, t-PA antigen and PAI-1 activity as well as mRNA for PAI-1 decreased proportionally to the duration of anoxia, to reach 27 +/- 1.0, 49 +/- 2.0, and 47 +/- 14% of control values, respectively, within 24 h of anoxia. t-PA mRNA also decreased significantly during reoxygenation following anoxia, but the extent could not be accurately quantitated. Addition, during anoxia, of a 200 micrograms/ml concentration of the superoxide anion radical scavenger superoxide dismutase or of a 5 mM concentration of the iron chelator deferoxamine mesylate prevented the subsequent decrease of t-PA antigen during reoxygenation; addition of these compounds during reoxygenation had no effect. Superoxide dismutase, but not deferoxamine mesylate, when added during anoxia prevented the subsequent decrease in PAI-1 activity. These studies suggest that the marked alteration of endothelial cell fibrinolysis during anoxia followed by reoxygenation is most likely mediated by a mechanism dependent on oxygen radicals. Impaired endothelial cell fibrinolysis may contribute to the pathophysiology of ischemia/reperfusion injury.
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PMID:Oxygen radicals generated during anoxia followed by reoxygenation reduce the synthesis of tissue-type plasminogen activator and plasminogen activator inhibitor-1 in human endothelial cell culture. 212 75

Brain ischemia was produced by occluding bilateral common carotid arteries of Mongolia gerbil with clips for 30-min and reperfusion was established by removing the clips. Superoxide dismutase (SOD) in brain tissue was measured by chemoluminescence, malondialdehyde (MDA) by fluorescence spectrometry and leukotrienes (LT) by bioassay. Decrease of SOD and increase of MDA were significant in the brain after 30-min ischemia followed by 2-min reperfusion; The level of SOD increased from 13.4 +/- 2.7 to 18.8 +/- 3.0, 19.8 +/- 2.5, 22.1 +/- 3.9 x 10(3) units/g brain tissue and MDA decreased from 218 +/- 26 to 169 +/- 41, 167 +/- 36, 167 +/- 44 nmol/g brain tissue respectively by ip silybin 100, 200 and 400 mg/kg 30-min before occlusion. LT decreased from 3.1 +/- 1.0 to 1.5 +/- 0.4 ng/g brain tissue after ip silybin 200 mg/kg. It suggested that the protective effect of silybin on ischemic brain result from the inhibition of 5-lipoxygenase and lipoperoxide and scavenging of oxygen free radical.
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PMID:[Effects of silybin on production of oxygen free radical, lipoperoxide and leukotrienes in brain following ischemia and reperfusion]. 213 May 96


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