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)

White mice, 18-20 g, were fed purified diets containing two weight percent safflower oil plus ten weight percent menhaden, corn, or olive oil for 2 wk. Menhaden oil ingestion resulted in significantly higher levels of 22:6(n-3) and 20:5(n-3), particularly 22:6(n-3), and lower levels of 20:4(n-6) and 18:2(n-6) in cardiac sarcoplasmic reticulum (SR) phospholipids than did corn or olive oil ingestion. These changes in fatty acid composition resulted in a significant decrease in the value of the n-6/n-3 fatty acid ratio of cardiac SR phospholipids. The ratio was 2.8 versus 0.2 in choline phospholipids and 1.9 versus 0.2 in ethanolamine phospholipids in SR of mice fed corn or menhaden oil, respectively. This reduction in the n-6/n-3 fatty acid ratio was associated with a lower relative activity of Ca2+-Mg2+ ATPase, and a lower initial rate of calcium transport and maximum calcium uptake in SR vesicles from mice fed menhaden oil rather than olive or corn oils. The specific activity of NADPH cytochrome C reductase (EC 1.6.2.3) of cardiac SR was not affected by dietary lipids. These data indicate that modification of SR by 22:6(n-3) may change the SR bilayer structure resulting in alteration of the calcium transport properties of SR vesicles. In addition, our results suggest that reduction of calcium flux across cardiac SR following fish oil consumption may also reduce the susceptibility of myocytes to rapid changes in calcium concentrations which may occur during ischemia and reperfusion.
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PMID:Ca2+-Mg2+ ATPase of mouse cardiac sarcoplasmic reticulum is affected by membrane n-6 and n-3 polyunsaturated fatty acid content. 252 49

Generation of toxic oxygen species by activated polymorphonuclear leukocytes (PMNs) may represent an important mechanism of ischemia-reperfusion injury. Concentration-response data concerning inhibition of superoxide anion (O2-) generation by NADPH oxidoreductase (NADPH OR) from isolated human PMN were generated for five calcium channel antagonists commonly utilized in ischemia-reperfusion investigational therapeutics. Regression analysis derived IC50 values for verapamil, nimodipine, nicardipine and lidoflazine were 45, 20, 12 and 7 microM respectively. Inhibition of the extent of reaction at 5 min paralleled inhibition of initial velocity. No inhibition by flunarizine was noted at concentrations less than or equal to 25 microM (where it did not alter reaction mixture composition). Only nicardipine demonstrated a significant concentration-response effect relative to prolonging lag time preceding O2- synthesis. Inhibition appeared at least partially reversible for all five agents. Neither PMN activation/desensitization, free-radical scavenging, nor PMN cytotoxicity appeared to be involved in the inhibition of PMN O2- synthesis by these agents. Ca2+ antagonist inhibition of PMN NADPH OR appears to involve more than simple inhibition of Ca2+ flux across the PMN plasma membrane. Direct inhibition of the intracellular events involved in the activation and/or activity of NADPH OR may be operative.
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PMID:In vitro modulation of human neutrophil superoxide anion generation by various calcium channel antagonists used in ischemia-reperfusion resuscitation. 255 27

The effect of an experimental ischemia lasting for 45 minutes and a subsequent period of reperfusion of equal length on the activity of xanthine oxidase (XO) and microsomal NADPH-cytochrome P450 reductase (NADPH-CR) were investigated in the small intestinal mucosa of male neonatal calves of the breed German "Schwarzbunte". The activity of the NADPH-CR was determined by chemiluminescence. The activity of XO decreased during ischemia, but rose to values above the control level following reperfusion. 5 mg of Cu2(succinate)2 (CuSu) administered either intraarterially or intraluminally during reperfusion prevented the rise in XO. Formation of malondialdehyde decreased in the presence of CuSu. The NADPH-CR likewise showed subnormal activity values during ischemia, but also remained at a low level during reperfusion. The activity of this enzyme was further lowered by local intraarterial or intraluminal administration of 5 mg of CuSu and by 120 mg of CuSu administered intravenously during the reperfusion. These results are discussed with regard to the superoxide anion radical induced tissue lesions observed during reperfusion.
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PMID:Investigations on the influence of copper succinate on the production of superoxide anion radicals by bovine small intestinal mucosa cells. 255 59

The lung is especially sensitive to a variety of vastly different agents and conditions including hyperoxia, certain drugs and xenobiotics, particulate debris, and ischemia/reperfusion. There is a growing body of experimental data to suggest that most, if not all, of these agents or conditions mediate pulmonary injury by forming reactive O2 metabolites such as O2-., H2O2.OH, HOCl, and RNHCl. The presence mechanisms by which these different agents converge to produce free radical-mediated pulmonary injury is not entirely clear. The lung does contain several metabolic pathways that will produce large amounts of reactive O2 metabolites. For example, hyperoxia-induced pulmonary injury may be mediated by oxidants produced by both mitochondrial and microsomal electron transport. Certain drugs and xenobiotics may be metabolized by nonspecific flavoproteins found in the mitochondrial electron transport chain and associated with microsomal mixed function oxidase system to yield a variety of free radicals and oxidants. Inhalation of particulate debris will activate resident phagocytic leukocytes to produce large quantities of cytotoxic oxidants. Ischemia and reperfusion appear to produce substantial amounts of xanthine oxidase-derived oxy-radicals that recruit and activate inflammatory phagocytes to produce cytotoxic HOCl and N-chlorinated oxidants. Finally, inappropriate metabolism of arachidonate by prostaglandin synthetase in the presence of NADH (NADPH) produces a burst of O2-. The fact that the lung contains so many different metabolic avenues for oxidant and free radical production suggests that this particular organ may be the most sensitive to oxidative insult.
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PMID:Metabolic sources of reactive oxygen metabolites during oxidant stress and ischemia with reperfusion. 265 Sep 65

In this study, we investigated the role of oxygen-derived free radicals and iron in mediating myocardial injury during ischemia and reperfusion. Iron is of special interest because it may enhance tissue injury during ischemia and reperfusion by catalyzing the formation of highly reactive hydroxyl radicals (by modified Haber-Weiss or Fenton reactions). Rat hearts, perfused by the Langendorff method, were subjected to global ischemia (15 minutes at 37 degrees C) and reperfusion. The effects of two iron chelators, 1,2-dimethyl-3-hydroxy-4-pyridone (L1) and 5-hydroxy-2-hydroxymethyl-4-pyrone (kojic acid), and one antioxidant, (+)-cyanidanol-3, on contractile function, coronary flow, lactate dehydrogenase release, and lactate production were studied. The combination of these iron chelators is of special importance because L1 is known to prevent lipid peroxidation, induced by ADP/Fe3+ and NADPH in microsomes, in contrast to kojic acid. We found significant protection of contractile function (apex displacement) during reperfusion with 50 microM L1 and 20 microM (+)-cyanidanol-3 (p less than 0.01, n = 6), whereas no protection was found with 50 microM kojic acid (n = 6). Measurements of lactate dehydrogenase release during reperfusion showed a protective pattern similar to that found for heart contractile function, although 50 microM kojic acid also showed a significantly lower lactate dehydrogenase release during the first 10 minutes of reperfusion. No differences in coronary resistance or lactate release were found between the various groups. Our findings indicate that iron and oxygen-derived free radicals are important in the pathogenesis of postischemic reperfusion injury probably because of the formation of hydroxyl radicals.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Prevention of postischemic cardiac injury by the orally active iron chelator 1,2-dimethyl-3-hydroxy-4-pyridone (L1) and the antioxidant (+)-cyanidanol-3. 273 47

Antioxidant activity of exogenous cytochrome c was investigated in vitro using the whole brain homogenate, mitochondrial fraction and postmitochondrial supernatant containing microsomes prepared from rat brains. Increments in the amount of lipid peroxides were observed in each fraction when incubated at 30 degrees C, while the addition of cytochrome c (200 mM) effectively suppressed the production of peroxides. This depressive effect of cytochrome c was more prominent in the supernatant than in the mitochondrial fraction. Although the peroxidation was enhanced markedly by the addition of NADPH (2 mM), particularly in the mitochondrial fraction, cytochrome c was able to prevent its acceleration. This inhibitory mechanism might be explained by the fact that cytochrome c deprived superoxide radicals of electrons generated in ischemic insult. The results of the present study suggest that exogenous cytochrome c has free radical scavenging or antioxidant activity, which might be responsible in part for its cerebral protective action during ischemia.
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PMID:Effect of cytochrome c on formation of lipid peroxides in rat brain in vitro. 285 20

Excitatory amino acids have been implicated in ischemic neuronal injury. To test this hypothesis in neonatal hypoxia-ischemia, lesions of the cortex and striatum were induced in 7-day-old rats by unilaterally ligating their carotid arteries and subjecting them to hypoxic conditions for 2 hours. Brains examined 1 week later demonstrated, within the regions of ischemic damage, a striking preservation of neurons that stained histochemically for nicotinamide adenine dinucleotide phosphate diaphorase (NADPH-d) activity. Concentrations of the neuropeptides somatostatin and neuropeptide Y, which colocalize in neurons containing NADPH-d, were unaffected in the areas of ischemic damage. The same pattern of injury with sparing of NADPH-d-reactive neurons was reproduced by focal microinfusion of the excitotoxin quinolinic acid, an endogenous N-methyl-d-aspartate (NMDA) agonist, into the striatum. These results support the hypothesis that neonatal hypoxic-ischemic injury is mediated through excitatory transmitters acting at the NMDA receptor and that the NADPH-d-reactive neurons in the neonate are resistant to excitotoxic damage. This pattern of cell vulnerability is unique to the developing striatum and may relate to the distinct pathological appearance of the basal ganglia that follows neonatal asphyxia.
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PMID:Selective sparing of NADPH-diaphorase neurons in neonatal hypoxia-ischemia. 290 92

Spin trapping technique has been applied to the detection of free radicals generated in NADPH stimulated lipid peroxidation process in ischemic brain homogenate. Using male Wistar rats, complete cerebral ischemia for 30 min, 60 min or 120 min was produced by decapitation followed by preservation of the heads at 37 degrees C. Global cerebral ischemia of 30 min or 60 min duration was induced by occlusions of three vessels (bilateral common carotid and basilar artery) in the ventilated rats. In some animals, bilateral carotid occlusions were released for 30 min following 30 min of ischemia to study postischemic event. Two reaction mixtures containing of brain homogenate, NADPH, Fe-EDTA and spin trapping reagent, phenyl-t-buthylnitrone (PBN), were prepared from each brain sample--one to be incubated in air and the other to be incubated in nitrogen gas. After the incubation for 20 min at 37 degrees C, free radical adducts of PBN were measured by electron spin resonance (ESR). In preliminary experiments, no ESR signals were obtained from the reaction mixtures without the addition of NADPH and Fe-EDTA. And the dependence of ESR signal intensity upon the NADPH concentration was observed. The six-line signals (triplet of doublets), which hyperfine splitting constants were AN = 16.2-16.5 G and A beta H = 3.6-3.8 G, were obtained from both ischemic models. These signals were dependent upon the presence of oxygen in the reaction systems, as evidenced by the fact that the signal intensity obtained from aerobic incubation was consistently stronger than that obtained from anaerobic incubation in each brain sample.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Detection of free radicals generated in NADPH-dependent lipid peroxidation in ischemic brain homogenates--use of the spin trapping technic]. 300 94

In ischemia/reperfusion injury, it is hypothesized that superoxide is responsible for the component of injury due to reperfusion. The superoxide is hypothesized to result from the aerobic oxidation of purines produced by the ischemia-mediated breakdown of high-energy phosphates. This oxidation is catalyzed by xanthine oxidase proposed to be rapidly formed as a result of ischemia-mediated protease conversion from xanthine dehydrogenase. In vivo experiments with the intestine of either rats or guinea pigs were unable to confirm the rapid conversion of xanthine dehydrogenase to xanthine oxidase as a result of ischemia. In vitro experiments with isolated guinea pig enterocytes did show a significant increase in xanthine oxidase activity after these cells were first placed in an anaerobic environment for 60 min and then reoxygenated; however, the magnitude of the increase is such that the biological importance of this finding remains uncertain. Using a variety of techniques, including spin trapping, hydroxylamine oxidation, and vanadate NADPH oxidation, we explored the possibility that superoxide was produced as a result of anoxia followed by reoxygenation in the in vitro enterocyte system. From these experiments, we determined that superoxide is generated as a result of anoxia/reoxygenation. However, from xanthine oxidase inhibition experiments using pterinaldehyde, only a small percentage of the total superoxide produced comes from the action of this enzyme on purines.
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PMID:Biochemical changes in the intestine associated with anoxia and reoxygenation: in vivo and in vitro studies. 303 28

Complex I (NADH-ubiquinone reductase) is a complex system located in the inner mitochondrial membrane and has the ability to catalyse several different enzymatic reactions concerned in electron transport. It is known to be one of the first components of the respiratory chain to be damaged by ischemia. Our results, using autolysis in the rat heart as experimental model, indicate that the NADH dehydrogenase system was impaired relatively early during ischemia while transhydrogenation and NADPH dehydrogenation appeared to be relatively resistant.
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PMID:Changes in NADH-ubiquinone reductase (complex I) with autolysis in the rat heart as experimental model. 309 11

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