EC:1.4.3.11 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.4.3.11 (glutamate dehydrogenase)
4,437 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The alterations of several small-intestinal mucosal enzymes have been examined in cats that underwent different periods (1-4 hr) of occlusion of the superior mesenteric artery, followed by 4 hr of reperfusion. The damage progressed during ischemia and reperfusion from the villus tips to the crypts: first, there was a rapid decrease in the activity of maltase, a brush-border enzyme; a slower decline occurred in two cytoplasmic enzymes, aldolase A (with preferential location in feline villus cells) and lactate dehydrogenase (with an ubiquitous distribution); a lag preceded the decrease in aldolase B (a cytoplasmic enzyme shown to occur mainly in feline crypt cells). For all these enzymes, the initial period of reperfusion was associated with a greater decrease in enzyme activity than persisting ischemia. By determination of the unsedimentable proportion of glutamate dehydrogenase (a mitochondrial matrix enzyme) and of acid phosphatase (a lysosomal enzyme) it was demonstrated that ischemia caused important mitochondrial damage before the cells were lost, whereas no lysosomal damage was observed in any condition. These sensitive parameters of cell damage can serve as a criterion for an adequate evaluation of potential cytoprotective agents.
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PMID:Influences of ischemia and reperfusion on the feline small-intestinal mucosa. 219 34

The interstitial transudate was investigated in isolated perfused rat hearts. Capillary permeability and the kinetics of interstitial uptake and release were characterized using four different marker molecules (mol wt 522 to 2 X 10(6)). The half-time (t1/2) values (less than 30 to 170 s) and the interstitial concentration after 30 min (100-44% of arterial concentration) reflected the order and inverse order of their molecular weights, respectively. Creatine kinase (CK) and glutathione (GSH) were measured during control state, hypoxia, and anoxia, followed by reoxygenation. Interstitial concentrations of CK and GSH were higher by a factor of 100 and 8, respectively, compared with the venous effluent. During hypoxia (PO2 = 110 mmHg, i.e., O2 supply = 30% of demand) and reoxygenation there was a significant increase only in the interstitial (not venous) release of CK and GSH, which was further increased during anoxia. Ischemia (75 min) and reperfusion cause no interstitial release of lysosomal (acid phosphatase) and mitochondrial (glutamate dehydrogenase) enzymes despite a massive loss of cytosolic enzymes. Examination of the interstitial transudate allows characterization of capillary transfer and provides a very sensitive measure of sarcolemmal release phenomena.
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PMID:Intra- and extracellular markers in interstitial transudate of perfused rat hearts. 245 35

Changes in the activity of three mitochondrial enzymes in rat liver after in vitro ischemia have been determined by enzyme histochemical methods. The changes were correlated with the appearance in the electron microscope of flocculent densities in the mitochondria indicative of irreversible cell injury. The flocculent densities were observed in rat liver after about 2 h of ischemia in vitro at 37 degrees C. At the same time the activity of glutamate dehydrogenase, localized in the mitochondrial matrix, started to decrease. However, the activities of succinate dehydrogenase localized in the inner membrane of mitochondria, as well as monoamine oxidase of the mitochondrial outer membrane did not change at that stage. It is concluded from the results of this study and those of others that flocculent densities are formed by denaturation of proteins of the mitochondrial matrix in which glutamate dehydrogenase takes part. It should be considered more as a sign than as the cause of cell death.
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PMID:A histochemical study of changes in mitochondrial enzyme activities of rat liver after ischemia in vitro. 287 57

The behavior of cytoplasmic and mitochondrial enzymes has been studied in rat liver at 1, 5, and 24 hr after 60 min of ischemia using histochemical methods. This period of ischemia resulted 24 h after ischemia in liver cell necrosis in about 15% of the volume of the ischemic liver lobes. As early as after 1 hr reperfusion lactate dehydrogenase (LDH, cytoplasm) activity decreased in a certain proportion of the liver parenchymal cells, whereas glutamate dehydrogenase (GDH, mitochondrial matrix) activity started to decrease after 5 hr reperfusion; the activities of mitochondrial membrane enzymes, monoamine oxidase and succinate dehydrogenase, did not decrease before 24 hr of reperfusion. It has been concluded that the early decrease in LDH activity is caused by leakage into the blood and reflects reversible damage; when this decrease is accompanied by a decrease in GDH activity irreversible liver cell damage is assumed. Diminished activity of mitochondrial membrane enzymes, due to leakage and denaturation, is observed when real necrosis can be assessed.
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PMID:Changes in cytoplasmic and mitochondrial enzymes in rat liver after ischemia followed by reperfusion. 367 63

Changes in the maximal rate of some cerebral enzymatic activities related to 400ene transduction and neurotransmission (lactate dehydrogenase; citrate synthase and malate dehydrogenase; total NADH-cytochrome c reductase and cytochrome oxidase; glutamate dehydrogenase; acetylcholine esterase) were assayed both in the crude or purified mitochondrial fraction and in the crude synaptosomal fraction from rat whole brain or cerebral cortex. The evaluations were performed in rats before and after a postdecapitative normothermic ischemia of 5, 10, 20 and 40 min duration. Modification observed in some of these activities wer discussed for comparison with other experimental results from different researchers. At present no definite conclusions can be drawn, but certainly the observed modifications in activity of enzymes are not passive but expression of deranged metabolism of ischemic neurons.
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PMID:Brain enzymes and ischemia. 626 30

The effects of complete ischemia and of in vivo pharmacological treatment with trimetazidine were studied on some enzymatic activities related to energy transduction: lactate dehydrogenase for anaerobic glycolysis; citrate synthase and malate dehydrogenase for the Krebs' cycle; total NADH-cytochrome c reductase and cytochrome oxidase for the electron transport chain; glutamate dehydrogenase for amino acid metabolism and acetylcholine esterase for acetylcholine metabolism. These enzymatic activities were evaluated in brains of 10-day-old rats, at three different subcellular levels: homogenate in toto, purified mitochondrial fraction, crude, synaptosomal fraction. Complete normothermic post-decapitative ischemia of 30 min duration increased the activity of cytochrome oxidase in the homogenate in toto and increased the activities of citrate synthase and malate dehydrogenase in the purified mitochondrial fraction, the activities of the enzymes evaluated in the crude synaptosomal fraction being unaffected. The i.p. treatment with trimetazidine (at the dose level of 50 mg . kg-1) was without any significant effect on the tested enzymatic activities.
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PMID:Effects of ischemia and pharmacological treatment on subcellular fractions from neonatal rat brain. 628 22

The maximal rate of some cerebral enzymatic activities related to energy transduction (hexokinase; phosphofructokinase; lactate dehydrogenase; citrate synthase; malate dehydrogenase; total NADH-cytochrome c reductase; cytochrome oxidase), amino acid metabolism (glutamate decarboxylase; glutamate dehydrogenase) and cholinergic metabolism (acetylcholine esterase) were tested in the cerebral cortex and in sub-cortical area of rats. The evaluations were performed both in the homogenate in toto and in the crude mitochondrial fraction, before and after a postdecapitative normothermic ischemia of 5, 10, 20, and 40 min duration. The results are discussed also with respect to the pharmacological pretreatment with two biological substances which may modulate amino acid (L-alanine) and phospholipid metabolism (CDP-choline). The analysis of the present data suggests the occurrence in brain tissue of a variety of interrelated factors implicated in the ischemia-induced changes of the maximal rate of the enzymatic activities related to the energy transduction. These include: (a) rearrangement of the enzymatic activities because of the changed metabolic and chemico-physical condition; (b) decrease in the activity of enzymes related to the electron transfer chain and glycolysis; (c) changes in enzymes related to mitochondrial membranes. The effects of in vivo administration of alanine or CDP-choline, even if significant, are not consistent throughout the time period studied.
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PMID:Changes induced by ischemia on some cerebral enzymatic activities related to energy transduction and amino acid metabolism. 685 30

The ammonia concentration and changes in the activity of ammonia metabolizing enzymes in the brain tissue during ischemia/reperfusion were investigated in rats. During ischemia (0.5 h) we found a statistically significant increase in brain ammonia concentration and a significant decrease in glutamate dehydrogenase activity. After 1 h of reperfusion, a further accumulation of ammonia concentration was observed. Furthermore, the brain glutamine syntethase and glutamate dehydrogenase were decreased, whereas the brain glutaminase activity was increased. The causes for the changed activities of some ammonia metabolizing enzymes in brain after ischemia/reperfusion have been discussed.
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PMID:Accumulation of ammonia and changes in the activity of some ammonia metabolizing enzymes during brain ischemia/reperfusion injury in rats. 780 37

Glutamic acid plays an important role as a main excitatory amino acid and also as one of the central metabolites in the central nervous system (CNS). This amino acid also acts as a toxic substance in the vertebrate CNS, including the retina, especially in ischemic conditions. This paper reviews recent advances in retinal research on glutamate metabolism and its relationship with pathogenesis of retinal diseases. Excessive administration of glutamate induces overstimulation of N-methyl-D-aspartate (NMDA) and non-NMDA receptors, and influx of Na+, Cl-, and water to postsynaptic elements, causing lysis and swelling. In hypoxic or ischemic conditions, accumulation of glutamate was observed in most parts of the retina. Morphological and functional changes induced by ischemia could be prevented by preadministration of an antagonist of NMDA receptors. These results suggest that the same pathological mechanism as in the CNS exists in the retina. They also suggest that a new pharmacological approach for treating retinal abnormalities caused by ischemia could be introduced in the ophthalmology clinic in the near future. Abnormality of glutamate dehydrogenase, an important enzyme in the glutamate metabolism, has been reported in patients with spinocerebellar degenerations. Retinal dystrophy was also reported in some of them. Partial deficiency of heat-labile activity of this enzyme has been reported to be profoundly related with those patients with retinal abnormalities. This suggests that not only glutamate itself, but also abnormalities in its metabolic path way might be deeply correlated with the pathogenesis of retinal degeneration.
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PMID:[Dual nature of excitatory amino acids in the vertebrate retina]. 819 8

This study was undertaken in order to assess the role of purely circulation-related effects upon free-radical-mediated reperfusion injury in the liver by comparing the respective effects of the oxygen free-radical scavenger superoxide dismutase (SOD) and the vasodilative action of papaverine in an ischemia/reperfusion model of the liver. Livers from male Wistar rats were rinsed blood free via the portal vein and stored ischemically (60 min at 37 degrees C in Krebs-Henseleit solution and 60 min at 4 degrees C in Euro-Collins solution). Reperfusion was carried out at a constant flow of 30 ml/min for 45 min at 37 degrees C in a nonrecirculating manner. Warm ischemic damage was evident in untreated livers compared to control livers, submitted solely to cold ischemia for 2 h at 4 degrees C, by increased vascular resistance upon reperfusion, enhanced enzyme leakage from the parenchyma (glutamate pyruvate transaminase, glutamate dehydrogenase) and from the endothelium (purine-nucleoside phosphorylase), reduced tissue content of ATP and enhanced lipid peroxidation. Preischemic treatment with SOD or papaverine (the latter also given during reperfusion) significantly reduced hepatic vascular resistance and parenchymal enzyme loss in a comparable manner. Both drugs resulted in a significant increase of hepatic tissue content of ATP at the end of reperfusion. SOD, but not papaverine, prevented the leakage of purine-nucleoside phosphorylase and significantly reduced the tissue levels of lipid peroxides.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Role of the hepatovasculature in free radical mediated reperfusion damage of the liver. 840 87

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