Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.4.1.2 (glutamate dehydrogenase)
 4,380 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The conidiation process of Neurospora crassa is characterized by three morphogenetic steps: hyphal adhesion, aerial hyphal formation, and production of conidia. Previous data indicated the occurrence of a hyperoxidant state at the onset of all three morphogenetic steps. Because glutamine synthetase (GS) and the biosynthetic glutamate dehydrogenase [GDH(NADP)] enzymes are susceptible to inactivation by reactive oxygen species, we followed these enzyme activities during conidiation and under different physiological conditions and related them to the hyperoxidant states and morphogenesis. Loss of GS activity occurred prior to all three morphogenetic steps, coinciding with an increase in total protein oxidation. Oxidized GS polypeptides were detected during hyphal adhesion. Loss of GDH(NADP) activity also occurred during hyphal adhesion and before aerial hyphal formation; the enzyme polypeptide and activity decreased in the adhered hyphae to low values and no GDH(NADP) was detected in aerial hyphae. The catabolic GDH [GDH(NAD)] behaved in an opposite manner, increasing its activity during hyphal adhesion and aerial hyphae development. These results are discussed with regard to cell differentiation and the conidiation process in N. crassa.
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PMID:Enzyme inactivation related to a hyperoxidant state during conidiation of Neurospora crassa. 795 90

Detailed study of the effects of oxygen on the carbohydrate metabolism of Giardia lamblia revealed that low concentrations of oxygen (< 0.25 microM) produced profound alterations in the carbon balance of this organism. Although this concentration of oxygen could not be detected by mass spectrometry, a marked stimulation of ethanol production was observed. Associated with this was an inhibition of alanine production and oxidation of the intracellular NAD(P)H pool. Higher concentrations of oxygen inhibited ethanol production and further reduced levels of alanine. These results suggest that this stimulation is due to changes in carbon flux. Analysis of cell and medium hydrolysates after the growth of trophozoites in [U-14C]glucose suggests that G. lamblia does not synthesise detectable levels of labelled amino acids, except alanine and to a lesser extent valine, from this sugar. Trophozoites of G. lamblia have both glutamate dehydrogenase and alanine aminotransferase activity. As glutamate is taken up from the medium, it is suggested that glutamate dehydrogenase and alanine aminotransferase cooperate to convert pyruvate to alanine, with the concomitant oxidation of NAD(P)H.
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PMID:The effects of oxygen on fermentation in Giardia lamblia. 809 74

A flow-injection biosensor system was developed for the amperometric determination of creatinine based on coupled reactions of three sequentially aligned enzyme reactors, creatinine deiminase, glutamate dehydrogenase, and glutamate oxidase, using an oxygen electrode as the detector. To overcome the problem of endogenous ammonia and glutamate, the flow was split into two channels after the injector and rejoined before the glutamate dehydrogenase reactor. Double peak recording was obtained by setting a delay coil and a reference column in one of the two channels. The first peak gave the sum response of creatinine, endogenous ammonia, and glutamate, and the second that of endogenous ammonia and glutamate. By this method compensation for endogenous ammonia and glutamate, as well as for interfering ascorbic acid, was achieved simultaneously. The system gave linear calibrations up to 2 mM for the first peak and 3 mM for the second one. The lower detection limits were 0.1 and 0.02 mM for 35- and 100-microliters injection of sample, respectively. One run was completed within 2 min. The system showed good reproducibility (< 3%) and long operational stability (> 1300 runs). The assay results of creatinine in urine showed good correlation with those obtained from the chemical method of Jaffe.
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PMID:A flow-injection biosensor system for the amperometric determination of creatinine: simultaneous compensation of endogenous interferents. 809 88

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

Quantitative estimates of intracellular fluxes and measurements of intracellular concentrations were used to evaluate the effect of dissolved oxygen (DO) concentration on CRL 1606 hybridoma cells in batch culture. The estimates of intracellular fluxes were generated by combining material balances with measurements of extracellular metabolite rates of change. Experiments were performed at DO levels of 60% and 1% air saturation, as well as under oxygen-limited conditions. Cell extracts were analyzed to evaluate the effect of DO on the intracellular concentrations of the glutamate dehydrogenase reactants, as well as the redox state of the pyridine nucleotides in the cytosol and mitochondria. The relationship between cell density and pyridine nucleotide redox state was also investigated. Dissolved oxygen concentration had a significant effect on nitrogen metabolism and the flux through glutamate dehydrogenase was found to reverse at low DO, favoring glutamate formation. The NAD in the cytosol and mitochondria was more reduced under low DO conditions while the cytosolic NAD was more oxidized at low DO. Cytosolic NAD was reduced at higher cell densities while the redox states of cytosolic NADP and mitochondrial NAD did not exhibit significant variation with cell density. These results point to the fundamental role of the intracellular oxidation/reduction state in cell physiology and the possibility of controlling physiological processes through modulation of the dissolved oxygen level or the oxidation/reduction potential of the culture.
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PMID:Intracellular flux analysis applied to the effect of dissolved oxygen on hybridomas. 857 34

Fructose-1,6-bisphosphate (FBP), an intermediate of glucose metabolism, is neuroprotective in brain hypoxia or ischemia. Because the mechanisms for this protection are not clear, we examined the effects of FBP on two important events in brain ischemia, i.e., loss of ATP and release of the excitatory neurotransmitter glutamate. Glutamate release from cortical brain slices was measured fluorometrically (glutamate dehydrogenase-catalyzed conversion of glutamate to alpha-ketoglutarate) during hypoxia (PO2 15 mm Hg) or hypoxia plus 100 microM cyanide. FBP (3.5 mM, with glucose 20 mM) reduced glutamate release during hypoxia by 55% and during hypoxia/cyanide by 46% (p < 0.005), and prevented a significant fall in [ATP]. [ATP] was maintained in oxygenated glucose-free conditions with 20 but not 3.5 mM FBP, and fell to < 20% of normal with hypoxia. Despite the drop in [ATP], 3.5 or 20 mM FBP without glucose decreased hypoxia-evoked glutamate release. We conclude (1) FBP present without glucose preserves normal [ATP] only when oxygen is available, suggesting limited uptake and metabolism; and (2) FBP decreases hypoxia-evoked glutamate release by processes independent of [ATP]. These results suggest protective actions of FBP that are separate from augmentation of anaerobic energy production, as previously proposed.
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PMID:Effects of fructose-1,6-bisphosphate on glutamate release and ATP loss from rat brain slices during hypoxia. 885 28

The main pathway for the hepatic oxidation of ethanol to acetaldehyde proceeds via ADH and is associated with the reduction of NAD to NADH; the latter produces a striking redox change with various associated metabolic disorders. NADH also inhibits xanthine dehydrogenase activity, resulting in a shift of purine oxidation to xanthine oxidase, thereby promoting the generation of oxygen-free radical species. NADH also supports microsomal oxidations, including that of ethanol, in part via transhydrogenation to NADPH. In addition to the classic alcohol dehydrogenase pathway, ethanol can also be reduced by an accessory but inducible microsomal ethanoloxidizing system. This induction is associated with proliferation of the endoplasmic reticulum, both in experimental animals and in humans, and is accompanied by increased oxidation of NADPH with resulting H2O2 generation. There is also a concomitant 4- to 10-fold induction of cytochrome P4502E1 (2E1) both in rats and in humans, with hepatic perivenular preponderance. This 2E1 induction contributes to the well-known lipid peroxidation associated with alcoholic liver injury, as demonstrated by increased rates of superoxide radical production and lipid peroxidation correlating with the amount of 2E1 in liver microsomal preparations and the inhibition of lipid peroxidation in liver microsomes by antibodies against 2E1 in control and ethanol-fed rats. Indeed, 2E1 is rather "leaky" and its operation results in a significant release of free radicals. In addition, induction of this microsomal system results in enhanced acetaldehyde production, which in turn impairs defense systems against oxidative stress. For instance, it decreases GSH by various mechanisms, including binding to cysteine or by provoking its leakage out of the mitochondria and of the cell. Hepatic GSH depletion after chronic alcohol consumption was shown both in experimental animals and in humans. Alcohol-induced increased GSH turnover was demonstrated indirectly by a rise in alpha-amino-n-butyric acid in rats and baboons and in volunteers given alcohol. The ultimate precursor of cysteine (one of the three amino acids of GSH) is methionine. Methionine, however, must be first activated to S-adenosylmethionine by an enzyme which is depressed by alcoholic liver disease. This block can be bypassed by SAMe administration which restores hepatic SAMe levels and attenuates parameters of ethanol-induced liver injury significantly such as the increase in circulating transaminases, mitochondrial lesions, and leakage of mitochondrial enzymes (e.g., glutamic dehydrogenase) into the bloodstream. SAMe also contributes to the methylation of phosphatidylethanolamine to phosphatidylcholine. The methyltransferase involved is strikingly depressed by alcohol consumption, but this can be corrected, and hepatic phosphatidylcholine levels restored, by the administration of a mixture of polyunsaturated phospholipids (polyenylphosphatidylcholine). In addition, PPC provided total protection against alcohol-induced septal fibrosis and cirrhosis in the baboon and it abolished an associated twofold rise in hepatic F2-isoprostanes, a product of lipid peroxidation. A similar effect was observed in rats given CCl4. Thus, PPC prevented CCl4- and alcohol-induced lipid peroxidation in rats and baboons, respectively, while it attenuated the associated liver injury. Similar studies are ongoing in humans.
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PMID:Role of oxidative stress and antioxidant therapy in alcoholic and nonalcoholic liver diseases. 889 26

The status of the main routes of ammonium detoxication in the liver (synthesis of glutamine and urea) after its resection and hyperbaric oxygenation (HBO) was studied in 160 rats. HBO (3 sessions at 3 atm. abs.--50 min) following resection of the liver stimulated the activity of glutamine synthase and prevented the reduction of glutamate (a substrate for glutamine synthesis) level in the operated on liver. Hyperbaric oxygen activated the glutamine-dependent and non-glutamine-dependent pathways of urea synthesis in the resected liver and ensured the incorporation of glutamine amido groups in the ornithine cycle. HBO boosted the inhibitory effect of liver resection on the activity of glutamate dehydrogenase and prevented the accumulation of ammonium in the hepatocytes of resected liver. The stimulating effect of HBO on the ammonium-detoxifying function of the resected liver persisted for 11 days after the exposure.
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PMID:[The hyperbaric oxygen therapy of disordered ammonia detoxication in the operated liver]. 902 61

We investigated the substrates for flight in the blister beetle Decapotoma lunata by (a) establishing the patterns of maximum activities of enzymes of various metabolic pathways in the flight muscles, (b) measuring the respiratory rates of flight muscle mitochondria with various substrates and (c) determining metabolite concentrations in flight muscles and haemolymph during a flight period of up to 17 min and over a rest period of up to 2 h following 10 min of flight. Activities of enzymes involved in proline metabolism (glutamate dehydrogenase, alanine aminotransferase, malic enzyme) were much higher in the blister beetle than in the migratory locust Locusta migratoria, whereas the activity of an enzyme responsible for fatty acid oxidation (ss-hydroxyacyl-CoA dehydrogenase) was much lower. Mitochondria from flight muscles of D. lunata have a much higher capacity to oxidise proline than those from L. migratoria. The glycerophosphate shuttle, however, was equally active in both insects. Whereas lipid levels in the haemolymph did not change significantly during flight, there was a continuous decrease in proline levels from 34.8 to 6.6 micromol ml-1 and a simultaneous increase in alanine concentration; carbohydrate levels dropped from 20.1 to 12.2 mg ml-1. In the thorax (flight muscles), glycogen levels were diminished between 2 and 17 min of flight from 25.9 to 6.7 micromol glucose equivalents g-1 fresh mass. Proline concentration dropped continuously from an initial 49.5 to 10.1 micromol g-1 fresh mass, whereas alanine levels rose concomitantly from 2.9 to 17.3 micromol g-1 fresh mass. After termination of a 10 min flight, pre-flight levels of proline in the haemolymph and flight muscles were only re-established after 2 h. In contrast, glycogen levels in the thorax were restored after 1 h. Using the rates of utilisation of substrates during the first 10 min of flight to calculate rates of oxygen consumption during flight, it was shown that overall haemolymph substrates contribute 75 % and those of the flight muscles only 25 %. Although proline is an important substrate for flight in D. lunata, its role is secondary to that of carbohydrates. This type of substrate usage is different from that of the Colorado potato beetle Leptinotarsa decemlineata or the African fruit beetle Pachnoda sinuata, in which carbohydrates are of negligible or only slight importance, respectively.
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PMID:Energy substrates for flight in the blister beetle Decapotoma lunata (Meloidae) 931 22

The specific activities of D-3-hydroxybutyrate dehydrogenase (BDH) and glutamate dehydrogenase (GDH) are reduced in the liver and kidney of rats intoxicated with 2.5 mg Cd/kg body wt and sacrificed after 24 h; conversely ketone-body concentration is strongly increased in both of these organs and blood. In the same animals a great stimulation of antioxidant enzymes glutathione reductase and glutathione peroxidase occurs. The prooxidant state induced by cadmium in liver mitochondria and microsomes is unaffected by superoxide dismutase, catalase, or mannitol, whereas it is completely blocked by vitamin E thus excluding the involvement of reactive oxygen species in this process. The mechanism by which cadmium induces lipid peroxidation has been investigated by measuring the effect of this metal on liposomes. Ninety-minute treatment of liposomes with CdCl2 does not induce any lipid peroxidation. In contrast, Fe2+ ions under the same conditions cause strong liposome peroxidation. It has also been observed that cadmium promotes a time-dependent iron release from biological membranes. When lipid peroxidation is induced by a low concentration (5 microM) of FeCl2, in place of CdCl2, the characteristics of this process and the sensitivity to the various antioxidants used are similar to those observed with Cd. From these results we conclude that the prooxidative effect of cadmium is an indirect one since it is mediated by iron. With regard to the inhibitory effect on BDH and GDH following cadmium intoxication, it does not appear to be imputable to lipid peroxidation since in vitro investigations indicate that the presence of vitamin E does not remove the inhibition at all.
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PMID:Enzyme activity alteration by cadmium administration to rats: the possibility of iron involvement in lipid peroxidation. 934 63


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