Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Vascular perfusion of gaseous oxygen has been used to prolong the in vitro survival of a number of isolated organs, and has been shown to improve the hypothermic preservation of ischemically injured kidneys that were subsequently transplanted. We have investigated the mechanism of this effect. Rabbit kidneys were subjected to 60 min of warm ischemia prior to preservation for 24 hr with Ross, Marshall, and Escott's hypertonic citrate solution, with or without retrograde oxygen persufflation (ROP) via the renal vein. It was found that adenine nucleotide levels were almost doubled in the ROP-preserved kidneys, principally due to higher adenosine triphosphate (ATP) concentrations. It was shown that cytochrome oxidase activity was unaffected by ischemia or preservation method, but studies with the metabolic inhibitors ouabain and a mixture of cyanide and iodoacetate suggested that ATP was being synthesized during the storage period but was also being utilized to power the active volume-regulating pump. Morphological examination revealed a much greater degree of cell swelling and cytological injury in the kidneys not subject to ROP, and the interstitial space appeared much reduced in the latter group. At the ultrastructural level, the ROP-treated kidneys showed generally well-preserved mitochondria, mostly in the energized "orthodox" configuration. In contrast, the mitochondria in the nonpersufflated kidneys were generally in the "condensed" deenergized state. We conclude that the provision of sufficient oxygen by ROP allows the continued production of ATP in sufficient quantities to permit improved maintenance of cellular volume and morphology under the conditions of low-temperature storage that we have studied.
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PMID:The mechanism of action of retrograde oxygen persufflation in renal preservation. 254 55

Recent evidence suggests that free radicals are generated in the heart during the reperfusion which follows ischemia. Intracellular accumulation of calcium has been postulated to be an important pathogenic factor in a number of disease states, including reperfusion injury. Therefore, in this study, the effects of various oxidants on calcium uptake by isolated rat heart cells were investigated. Ammonium persulphate, t-butyl hydroperoxide and phenazine methosulphate increased the number of cells in contracture in both a concentration dependent and time dependent manner, while 45Ca content of cardiomyocytes was decreased by oxidant in proportion to its concentration. Carbonyl cyanide m-chlorophenyl-hydrazone (CCCP) dependent (mitochondrial) and CCCP independent (sarcoplasmic reticulum) 45Ca contents in chemically skinned myocytes were reduced by the oxidants. By contrast, hydrogen peroxide raised 45Ca content of cardiomyocytes and did not reduce sarcoplasmic reticulum 45Ca content, although mitochondrial 45Ca content was decreased. Release of 45Ca from mitochondria and sarcoplasmic reticulum in saponin treated myocytes was accelerated by hypochlorous acid and hydrogen peroxide. The authors conclude that oxidants other than hydrogen peroxide inhibited intracellular uptake of calcium and accelerated calcium release, thus raising the cytosolic calcium concentration and causing cell contracture. The net influx of calcium across sarcolemmal membrane was decreased by these oxidants.
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PMID:Oxidant injury to isolated heart cells. 272 Apr 82

The hypothesis that mitochondria damaged during complete cerebral ischemia generate increased amounts of superoxide anion radical and hydrogen peroxide (H2O2) upon postischemic reoxygenation has been tested. In rat brain mitochondria, succinate supported H2O2 generation, whereas NADH-linked substrates, malate plus glutamate, did so only in the presence of respiratory chain inhibitors. Succinate-supported H2O2 generation was diminished by rotenone and the uncoupler carbonyl cyanide m-chlorphenylhydrazone and enhanced by antimycin A and increased oxygen tensions. When maximally reduced, the NADH dehydrogenase and the ubiquinone-cytochrome b regions of the electron transport chain are sources of H2O2. These studies suggest that a significant portion of H2O2 generation in brain mitochondria proceeds via the transfer of reducing equivalents from ubiquinone to the NADH dehydrogenase portion of the electron transport chain. Succinate-supported H2O2 generation by mitochondria isolated from rat brain exposed to 15 min of postdecapitative ischemia was 90% lower than that of control preparations. The effect of varying oxygen tensions on H2O2 generation by postischemic mitochondrial preparations was negligible compared with the increased H2O2 generation measured in control preparations. Comparison of the effects of respiratory chain inhibitors and oxygen tension on succinate-supported H2O2 generation suggests that the ability for reversed electron transfer is impaired during ischemia. These data do not support the hypothesis that mitochondrial free radical generation increases during postischemic reoxygenation.
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PMID:Generation of hydrogen peroxide by brain mitochondria: the effect of reoxygenation following postdecapitative ischemia. 291 86

In the present study we examined factors affecting the reversal of the ischemia-induced protonic inhibition of the mitochondrial ATPase described earlier (Rouslin, W. (1983) J. Biol. Chem. 258, 9657-9661). It was found that ATPase reactivation and accompanying inhibitor protein release during the re-energization of intact mitochondria isolated from 20-min ischemic canine heart muscle could be blocked completely by either carbonyl cyanide p-trifluoromethoxyphenylhydrazone (FCCP) or nigericin but was unaffected by valinomycin at 35 mM K+. At higher K+ concentrations, valinomycin also blocked ATPase reactivation but not quite as completely as did nigericin. These observations suggest that ATPase reactivation and inhibitor protein release are particularly dependent upon either the trans-inner membrane pH gradient (delta pH) or possibly upon matrix pH per se and slightly less dependent upon membrane potential (delta psi) in intact cardiac muscle mitochondria. The addition of FCCP at the end of the re-energization incubations limited partially the extent of both ATPase reactivation and inhibitor protein release. This latter effect appears to have been mediated by a partial reassociation of the inhibitor protein with the enzyme, and it was accentuated (when FCCP was added at the end of the incubations) or mimicked (when FCCP was absent) by lowering the pH of the re-energization medium. A close examination of the first 10 min of the time course of enzyme activation and of inhibitor protein release revealed that while the former process was essentially finished in 1 min or less, the latter required approximately 10 min for completion. This observation led to the proposal of a two-site model of enzyme-inhibitor interaction which is discussed.
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PMID:Factors affecting the reactivation of the oligomycin-sensitive adenosine 5'-triphosphatase and the release of ATPase inhibitor protein during the re-energization of intact mitochondria from ischemic cardiac muscle. 295 98

Twenty minutes of ischemia in canine cardiac muscle produced a 50% to 60% inhibition of the mitochondrial ATPase. The inhibition has been shown to be triggered by a drop in cell pH under the non-energizing conditions which prevail in ischemic cells (Rouslin, W J Biol Chem 258, 9657-9661 (1983). In the present study we showed that the ATPase inhibition produced in situ in ischemic cardiac muscle was preserved in submitochondrial particles (SMP) prepared from mitochondria isolated from the ischemic tissue. The ischemic SMP ATPase was 45 +/- 3% as active as that of control particles. Measurements of the amounts of ATPase inhibitor protein of Pullman and Monroy present in extracts of control and ischemic SMP by two independent methods, titration of rat heart SMP ATPase and radioimmunoassay, revealed that control SMP contained 62 +/- 4% as much inhibitor as ischemic SMP as estimated by the titration procedure and 66 +/- 3% as much as estimated by the RIA. The results suggest that about one-third of the inhibitor was displaced from the control SMP. Finally, submitochondrial particles prepared from 20 min ischemic heart muscle showed a 2.5-fold increase in ATPase specific activity and a concomitant release of 35% of their inhibitor as a result of subsequent reenergization in vitro. Carbonyl cyanide p-trifluoromethoxyphenylhydrazone (FCCP) prevented both ATPase reactivation and inhibitor release. These findings support the hypothesis that the observed in situ ATPase inhibition is inhibitor protein mediated. Moreover, they suggest a pathophysiological function for the inhibitor protein in cardiac muscle.
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PMID:Protonic inhibition of the mitochondrial adenosine 5'-triphosphatase in ischemic cardiac muscle. Reversible binding of the ATPase inhibitor protein to the mitochondrial ATPase during ischemia. 296 Aug 23

Two deaths occurred after ingestion of cyanide-containing Extra-Strength Excedrin capsules. Cranial CT scans obtained within 3 hr of each patient's collapse showed diffuse cerebral swelling and loss of gray-white differentiation. Most diffuse cerebral insults (hypoxia, ischemia) do not show such changes so soon after injury. The early onset of diffuse cerebral edema with loss of gray-white differentiation may be a clue to the diagnosis of acute cyanide poisoning.
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PMID:CT diagnosis of toxic brain injury in cyanide poisoning: considerations for forensic medicine. 312 May 33

The cerebral protective effects of minaprine were examined using the following methods, i.e., complete ischemia by decapitation in mice, histotoxic anoxia by potassium cyanide (KCN) in mice, hypobaric hypoxia in mice, asphyxic anoxia in normal rats and cerebral ischemia induced by bilateral carotid artery occlusion (BCAO) in strokeprone spontaneously hypertensive rats (SHR-SP). Minaprine showed positive effects on all the mouse models. Minaprine led to an improvement in the hypoxia-induced impaired electroencephalogram activity, in normal rats. All vehicle-treated SHR-SP died within 20 hr after BCAO, whereas pretreatment with minaprine (50 mg/kg x 5 days) decreased the mortality within 20 hr after BCAO. Beneficial effects of minaprine for treating cerebral hypoxia, anoxia and ischemia are discussed.
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PMID:Protective effects of minaprine on the cerebrum of rodents. 317 36

Calcium-independent noradrenaline release was studied in the isolated perfused rat heart under conditions of normoxia, cyanide intoxication, and ischemia. The release of endogenous noradrenaline and dihydroxyphenylglycol were determined by high-performance liquid chromatography. The release of dihydroxyphenylglycol, the main neuronal noradrenaline metabolite, was used as an indicator of the free axoplasmic amine concentration. When storage function of neuronal vesicles was disturbed by Ro 4-1284 or trimethyltin, high dihydroxyphenylglycol release was observed without concomitant overflow of noradrenaline. If, however, these agents were combined with inhibition of Na+K+-ATPase or with veratridine-induced entry of sodium into the neuron, both dihydroxyphenylglycol and noradrenaline were released. Noradrenaline release was independent of extracellular calcium and was suppressed by blockade of neuronal catecholamine uptake (uptake1), indicating nonexocytotic noradrenaline liberation from the sympathetic nerve ending. This release critically depended on two conditions: 1) increased cytoplasmic concentrations of noradrenaline within the sympathetic neuron and 2) intraneuronal sodium accumulation. Both conditions together were required to induce noradrenaline efflux across the plasma membrane using the uptake1 carrier in reverse of its normal transport direction. A disturbed energy status of the sympathetic neuron, induced by cyanide intoxication or ischemia, likewise caused calcium-independent noradrenaline release by interfering with both vesicular storage function and neuronal sodium homoeostatis. Again, release was sensitive to uptake1 blockade. Since neuronal sodium accumulation was the rate-limiting step, release was further accelerated when residual Na+,K+-ATPase activity was inhibited. Na+-H+ exchange was identified as the predominant pathway of sodium entry into the sympathetic nerve ending in ischemia, and its inhibition by amiloride and ethylisopropylamiloride markedly suppressed ischemia-induced noradrenaline release.
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PMID:Neuronal sodium homoeostatis and axoplasmic amine concentration determine calcium-independent noradrenaline release in normoxic and ischemic rat heart. 338 76

Effects of various classes of drugs on complete ischemia (gasping) induced by decapitation and cyanide intoxication in mice were investigated. The average gasping duration in complete ischemia and survival time in potassium cyanide injection of control mice were 21.0 +/- 0.1 and 26.1 +/- 0.4 sec (mean +/- SEM), respectively. Some antidepressants, neuroleptics and tranquilizers significantly and dose-dependently prolonged the duration of gasping and survival time, and decreased locomotor activity. Vincamine and its analogues are markedly effective for treating cyanide intoxication. It is conceivable that this is a characteristic phenomenon for vincamine. Xanthine analogues significantly and dose-dependently shortened the duration of gasping and survival time and increased locomotor activity. These results suggest that the cerebral protecting effect primarily relates to the cerebral energy demand.
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PMID:Effect of various classes of drugs on complete ischemia induced by decapitation and cyanide intoxication in mice. 341 45

The release of endogenous noradrenaline and its deaminated metabolite dihydroxyphenylglycol in the myocardium have been studied in the isolated perfused heart of the rat subjected to three models of energy depletion: ischemia, anoxia, and cyanide intoxication. Anoxia and cyanide intoxication were combined with substrate deficiency at constant perfusion flow. All three energy-depleting procedures caused a similar overflow of noradrenaline which, following a constant delay of 10 minutes without increased release, amounted to more than 25% of total heart content within 40 minutes. This noradrenaline overflow was not diminished in the absence of extracellular calcium and was inhibited by the uptake1 blocker desipramine in all three experimental models, indicating a common and nonexocytotic release mechanism. In the presence of glucose, neither anoxia nor cyanide intoxication resulted in a measurable noradrenaline overflow. Conversely, blockade of glycolysis or glucose depletion prior to ischemia or cyanide poisoning accelerated the noradrenaline overflow, demonstrating a key role of the sympathetic nerve cells' energy status in causing nonexocytotic catecholamine release. Blockade of energy metabolism in the presence of oxygen (cyanide model) resulted in the overflow of high amounts of dihydroxyphenylglycol that was not inhibited by uptake1 blockade. The release of the lipophilic dihydroxyphenylglycol by diffusion reflects deamination of axoplasmic noradrenaline by monoamine oxidase. Since saturation of the enzyme could be excluded in this model dihydroxyphenylglycol release can be taken as a mirror of cytoplasmic noradrenaline concentration. The results obtained by these studies indicate that nonexocytotic catecholamine release is a two-step process induced by energy deficiency in the sympathetic varicosity. In a first step, noradrenaline is lost from storage vesicles, resulting in increasing axoplasmic concentrations. The second step is the rate-limiting transport of intracellular noradrenaline across the cell membrane by the uptake1 carrier that has reversed its normal net transport direction.
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PMID:Nonexocytotic release of endogenous noradrenaline in the ischemic and anoxic rat heart: mechanism and metabolic requirements. 356 91


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