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)

Excitatory dicarboxylic amino acid neurotransmitters, particularly glutamate, have been implicated in mediating neuronal cell injury in brain ischemia-anoxia, epilepsy, and stroke. Glutamate neurotoxicity has been demonstrated in several in vitro models, as well as its prevention by a variety of agents, including several sialic acid-containing glycosphingolipid species, gangliosides. We have now examined ganglioside effects in anoxic exposed cultures of granule cells from Postnatal Day 8 rat cerebellum. Cells between 10 and 12 days in vitro were placed into an anoxic atmosphere or subjected to a chemical model of anoxia by a pulse exposure to rotenone. Widespread neuronal degeneration of neuronal cell bodies and their associated neurite network was seen the following day. These effects on cell vitality at the morphological level were quantitatively confirmed by measuring the photometric reduction of 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyl tetrazolium bromide to a blue formazan product. This neuronal injury was abolished by the specific N-methyl-D-aspartate receptor noncompetitive antagonists Mg2+, phencyclidine and MK-801, suggesting that this subtype of glutamate receptor is involved in the pathogenesis of anoxic granule cell injury. Pretreatment for 30 to 60 min or more or concurrent treatment with ganglioside GM1 largely prevented the ensuing neuronal death (ED50 = 25 microM), even 4 days later. Degeneration induced by exogenous glutamate was equally reduced. Asialo GM1 (lacking sialic acid) was ineffective. These results are consistent with the observed beneficial effects of the gangliosides in ischemic brain injury models in vivo.
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PMID:Monosialoganglioside GM1 protects against anoxia-induced neuronal death in vitro. 268 18

When calcium homeostasis fails, as occurs in anoxia and other energy-deprived states, cell viability is threatened. This is probably because such states are accompanied either by an uncontrolled influx of calcium (Ca) through the plasma membrane, or by massive release of Ca from intracellular binding/sequestration sites. The review herein provides a brief overview of our current state of knowledge on Ca-related cell damage. Various aspects of the latter as well as of cellular Ca homeostasis are discussed, such as loss of Ca homeostasis and cell death, Ca-unrelated cell damage, Ca and neuronal vulnerability to ischemia, the neurotoxicity of excitatory amino acids, Ca and excitotoxic cell death in vitro, routes of entry of Ca, spreading depression and ionic changes, and the importance of Ca in the pathogenesis of ischemic neuronal damage.
Magnesium 1989
PMID:Calcium and cell death. 269 44

The biochemical factors that mediate secondary or delayed damage to the central nervous system (CNS) remain speculative. We have recently demonstrated that brain injury in rats causes a rapid decline in brain intracellular free magnesium (Mg2+) and total magnesium concentrations that is significantly correlated with the severity of injury. In order to further investigate the relationship between Mg2+ and brain injury, we examined the effect of Mg2+ treatment on posttraumatic neurological outcome following fluid-percussion brain injury (2.0 atm) in rats. Since administration of ATP-MgCl2 has been shown to be beneficial in a variety of models of organ ischemia, we also examined the efficacy of ATP-MgCl2 or ATP alone in the treatment of experimental brain injury. Animals treated with low (12.5 mumol) or high (125 mumol) dose MgCl2 at 30 min postinjury showed a significant dose-dependent improvement in neurological function when compared to saline-treated controls. Treatment with ATP-MgCl2 (12.5 mumol) or ATP alone (12.5 mumol) caused no significant improvement in chronic neurological outcome. MgCl2-treated animals showed no change in postinjury mean arterial blood pressure (MAP), whereas animals treated with either ATP-MgCl2 or ATP alone showed a transient but significant fall in MAP (P less than 0.01) during the drug-infusion period. Our results suggest that postinjury treatment with MgCl2 is effective in limiting the extent of neurological dysfunction following experimental traumatic brain injury in the rat.
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PMID:Magnesium protects against neurological deficit after brain injury. 278 89

Primary dysmenorrhea occurs mostly in young women with a painful bleeding pattern. In a recent study, 72% of 19-year-old women had light, 19% had medium to severe, and 8% had severe symptoms. Secondary dysmenorrhea means pathological organic alterations of the genital tract: uterus myomatosus, endometrial polyps, endometriosis, and retroflexed uterus. IUDs can also generate this condition. A certain imbalance of estradiol and progesterone results in defective prostaglandin formation in the endometrium (too much PGF2alpha and too little PGI2) as well as in abnormal and increased uterine contractility and diminished endometrial, blood supply with concomitant painful ischemia. Increased prostaglandin synthesis leads to inflammatory processes and the traumatization of the endometrium (high PGF2alpha level), but IUDs also often cause secondary dysmenorrhea. Treatment calls for the normalization of prostaglandin formation in the uterus by dietary change by increasing fatty acid intake (fish oils and plant fats), and also by the systematic addition of exogenic gestagens (Duphaston 10 mg/day po. Orgametril 5 mg/day), and by the use of the progesterone-releasing IUDs (Biograviplan and Progestasert) that lessen the contractility of the myometrium by reducing PGF2-alpha synthesis. If pregnancy is to be avoided hormonal ovulation inhibitors as optimal, since their effectiveness is over 90% (Cilest, Femovan, Marvelon, and Ortho-Novum 2 mg). If contraception is not sought, nonsteroidal antiphlogistics are recommended: ibuprofen (400 mg 3-4 times/day), naproxen (250 mg 4-5 times/day), flufenamic acid (200 mg/day tid), mefenamic acid (500 mg 3 tid or 250 mg qid), aspirin (650 mg every 4-6 hours), indomethacin (25 mg tid, although it is relatively toxic). Magnesium is a natural calcium antagonist that can influence the intracellular calcium concentration in the myometrium. THe calcium blocker nifedipin (20-40 mg po) and beta-sympathomimetics (Partusisten) also mitigate uterine contractions, but the latter can produce more side effects as a consequence of interfering in the vegetative nervous system.
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PMID:[Drug therapy of dysmenorrhea]. 289 19

These studies addressed the question of the in vivo distribution of rat brain hexokinase (HK), and whether physiologically relevant changes in the glycolytic rate are accompanied by changes in the distribution of HK. Homogenates of fresh tissue showed only 11-15% of the overt (assayable without added detergent) HK to be soluble (found in high-speed centrifugation supernatant fractions) when homogenization was begun within 15-20 s of sacrifice. Freeze-blown rat brain tissue also was used, coupled with a new technique wherein it was homogenized as it thawed in a buffered sucrose solution containing 1 mM EDTA. In tissue sampled 15 min (anesthetized) or 60 min (waking) after ip Nembutal injection (40 mg/kg), 23% of the overt HK and 79% of the total lactate dehydrogenase were soluble. The average phosphocreatine content of these and similar homogenates had decreased only 23% from in vivo levels, while ATP had decreased by 65%, due to the combined effects of a high level of endogenous ATPase, chelation of Mg2+ by EDTA, and the greater stability of Mg-ATP2- relative to Mg-ADP1-. These data indicated that the tissue experienced, at most, the equivalent of 6 s of complete ischemia prior to the completion of homogenization. Synaptosomes derived from rat and chicken cerebra were incubated at 37 degrees C in a physiological salt solution containing 10 mM glucose. Addition of veratridine has been shown to stimulate glycolysis and oxidative phosphorylation two- to threefold (H. T. Kyriazi and R. E. Basford (1986) J. Neurochem., in press), but did not alter the HK distribution, as 21% was found in the supernatant fractions of both control and veratridine-stimulated synaptosomes treated with digitonin. These results indicate that in brain tissue, large net movements of HK on and off the outer mitochondrial membrane do not occur, and thus play no role in the regulation of glycolysis.
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PMID:An examination of the in vivo distribution of brain hexokinase between the cytosol and the outer mitochondrial membrane. 294 9

The activity of three forms of ATPase were examined in fractions of the brain of the gerbil treated with ethylene glycol-N-N-tetra-acetic acid (EGTA) under a variety of conditions of primary and secondary (reflow) ischemia. In animals which were unilateral ischemic (ligation of the right common carotid), damage to Na+, K+-ATPase alone was observed only after at least 6 hr of ischemia had elapsed. The phenomenon occurred in only symptomatic gerbils and was absent in animals which were either asymptomatic or only displayed partial neurological symptoms. Under conditions of bilateral cerebral ischemia, in which both carotid arteries were clamped, only irreversible ischemia (60 min) followed by reflow, was associated with highly significant damage to cerebral Na+, K+-ATPase. In regional studies of the forebrain involving ischemia for 60 min plus 30 min reflow, damage to Na+, K+-ATPase was evident in the cerebrum, hippocampus, striatum and thalamus, while the hypothalamus and olfactory bulb were spared. Pretreatment of gerbils with allopurinol, clonazepam or combinations of thiopental plus either indomethacin or methylprednisolone offered protection to cerebral Na+, K+-ATPase subsequent to secondary ischemia. With only minor exceptions (striatum) neither Ca2+, Mg2+- nor Mn2+-ATPase were altered by stroke or treatment with drugs.
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PMID:Classification of ischemic-induced damage to Na+, K+-ATPase in gerbil forebrain. Modification by therapeutic agents. 299 3

The uptake of 32P-phosphocreatine by control and ischemic isolated perfused rat hearts has been studied. The rate of phosphocreatine (PCr) uptake by the hearts after 35 minutes of ischemia was two times that in control hearts at 0.5-10 mM PCr in the perfusate. At 10 mM PCr in the perfusate, this rate was 182 nmoles/min/g dry weight. The 5'-nucleotidase and phosphatase activities were found in the crude plasma membrane fraction of rat heart. The pH-dependence of these enzymes was examined. The 5'-nucleotidase activity decreased with a drop in pH from 8.0 to 6.0. The phosphatase activity in the crude plasma membrane fraction of rat heart was increased 2-fold with a decrease in pH from 8.0 to 6.0. The 5'-nucleotidase activity was inhibited by 10 mM PCr in the presence of 5 mM Mg2+. This inhibition was pH-dependent with a maximum (58%) at pH 6.0. The inhibition of phosphatase activity by PCr was independent of pH and reached 20% in the presence of 10 mM PCr. Some feasible mechanisms of the protective effect of PCr on ischemic myocardium are discussed.
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PMID:[Possible mechanism of the protective effect of phosphocreatine on the ischemic myocardium]. 301 Nov 27

Oxygen-derived free radicals play an important role in the myocardial injury associated with ischemia and reperfusion. This study was designed to assess whether the protection afforded by a K+ rich, Mg2+ rich cardioplegic solution could be enhanced by the addition of free radical scavengers acting at different levels of the radical generating pathway. Forty isolated isovolumic rat hearts were divided into five groups (n = 8). Four groups of hearts were subjected to 90 minutes of normothermic cardioplegic arrest followed by 45 minutes of reperfusion. Hearts were given an initial bolus of either unmodified cardioplegic solution or cardioplegic solution enriched with superoxide dismutase (200,000 U/L) reduced glutathione (0.1 mmol/L), or peroxidase (6,000 U/L). One group of hearts was aerobically perfused throughout the experimental protocol and served as nonischemic controls. Based on comparisons of postreperfusion ventricular pressure development, maximal ventricular dP/dt, left ventricular compliance and coronary flow, peroxidase-containing cardioplegic solution afforded the best myocardial protection, with values of these indicators not significantly different from those of nonischemic perfused control heart. Glutathione afforded protection slightly inferior to that of peroxidase but still markedly better than in groups receiving superoxide dismutase or unmodified cardioplegic solution. This study confirms that cardioplegic protection can be enhanced by the addition of free radical scavengers, in particular peroxidase.
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PMID:A comparative study of free radical scavengers in cardioplegic solutions. Improved protection with peroxidase. 301 15

The effect of pH on the excitation-contraction coupling system of canine masseter muscle was studied by evaluating the functional integrity of the sarcoplasmic reticulum (SR) and myofibrils. Increasing proton concentration (pH 7.0-5.8) significantly reduced oxalate supported SR calcium uptake velocity, while Ca2+-stimulated, Mg2+-dependent ATPase activity was unaffected by pH. The efficiency ratio of calcium transport, or the coupling ratio (mumoles Ca2+ transported/mumoles ATP hydrolyzed), decreased from 1.094 +/- 0.042 at pH 7.0 to 0.946 +/- 0.036 at pH 6.0 (P less than 0.05) and to 0.780 +/- 0.024 at pH 5.8 (P less than 0.01). Myofibrillar pCa (-log [free Ca2+] )-ATPase activity was unaffected between pH 7.0 and pH 6.5. At pH 6.0, increasing Ca2+ concentration inhibited myofibrillar ATPase activity, and this inhibitory phenomenon was accentuated at pH 5.8. Kinetic analysis of the myofibrillar pCa-ATPase data, utilizing double-reciprocal plots, demonstrated an increase in Km at low pH. It is concluded that acidosis significantly uncouples calcium transport from ATP hydrolysis in the SR of masseter muscle and significantly alters myofibrillar ATPase activity. It is hypothesized that these defects may explain an observed depression in skeletal muscle cell function during ischemia.
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PMID:Characterization of the effect of pH on the excitation-contraction coupling system of canine masseter muscle. 315 68

Mongrel dogs with healed myocardial infarctions were given a 2 min coronary occlusion during an exercise test. The exercise plus ischemia test induced ventricular fibrillation in nine animals. One week later, the test was repeated after pretreatment with magnesium sulfate (100 mg/kg i.v.). Magnesium prevented ventricular fibrillation in seven of the nine animals without adverse side effects. Thus, magnesium may be useful in the management of ventricular fibrillation during ischemia.
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PMID:Prevention of ventricular fibrillation with magnesium sulfate. 322 Jan 16


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