Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.6.1.1 (aspartate aminotransferase)
 21,665 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A comparative study of 24 hr preservation at 4 degrees C of excised rat livers with Euro-Collins and hydroxyethyl starch-free University of Wisconsin (UWm) solutions has been conducted based on the assessment of (1) the cellular energy status determined by 31P NMR spectroscopy and (2) cellular injury estimated from the loss of purine compounds (inosine, hypoxanthine, xanthine, and uric acid) during cold ischemia and reperfusion measured by HPLC, the leakage of intracellular enzymes, and the modifications of parenchyma established by light microscopy. Recovery of nucleosides di- and triphosphate was greater in the UWm group (80 +/- 6% vs. 58 +/- 6%) while inorganic phosphate formation was comparatively reduced. During hypothermic storage, the UWm groups generated a higher amount of inosine and hypoxanthine (in relation to the presence of adenosine in the protective solution) while no xanthine or uric acid was detected due to the inhibitory effect of allopurinol. Conversely, large quantities of xanthine and uric acid were found in the reperfusate of the EC group, pinpointing the cytotoxic role of oxygen-derived free radicals in the generation of cellular damage, as also illustrated by a higher aspartate aminotransferase leakage in the EC group (devoid of allopurinol and glutathione. Light microscopy indicated no histological alterations in the UWm group and mild alterations in the EC group that showed ballooning of hepatocytes (no lactobionate and raffinose in EC) and an alternation of clarifications and eosinophilic condensations. This study clearly confirms and illustrates the overall superiority of UWm solution in liver transplant preservation.
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PMID:Twenty-four-hour hypothermic preservation of rat liver with Euro-Collins and UW solutions. A comparative evaluation by 31P NMR spectroscopy, biochemical assays, and light microscopy. 141 50

It has been independently postulated that nutritional status is a modulator of the hepatic injury response to hypoxia and that glucose may be a poor substrate for hepatocellular metabolism. This study provides data linking these two concepts within the framework of metabolic zonation of the liver. With the use of a hypoxically perfused isolated rat liver model, cellular injury, as reflected by aspartate aminotransferase (AST) release, was significantly greater in the liver of fasted (mean AST 489 U/g liver at 3 h) than fed (40 U/g) animals. The extent of injury during hypoxia was decreased to a comparable degree in fasted livers perfused with Wisconsin solution (27 U/g) or 20 mM fructose (51 U/g). Perfusion with (11.5 mM) glucose plus insulin provided no hepatoprotection (791 U/g); however, supraphysiological amounts of glucose (100 mM) with (310 U/g) or without (321 U/g) insulin (10 U) or dihydroxyacetone (220 U/g) provided a modest reduction in AST release. Cellular injury measured by trypan blue uptake showed a marked zonal pattern, with upstream regions incurring greater parenchymal and nonparenchymal injury than downstream areas. These data that indicate that exogenous glucose is poorly utilized as an energy substrate by the liver during hypoxia are consistent with data from the fasted-refed rat model, suggesting a "glucose paradox" in the liver. The findings also suggest that low levels of oxygen are an important factor mediating "hypoxic" liver injury.
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PMID:Hypoxic liver injury and the ameliorating effects of fructose: the "glucose paradox" revisited. 141 41

A moderate malignant hyperthermia developed in a Labrador Retriever anaesthetized with isoflurane for a femoral shaft fracture repair. Signs of malignant hyperthermia included progressive increases in PETCO2 and rectal temperature up to 39.8 degrees C, tachycardia, cyanosis, and elevated serum levels of potassium, inorganic phosphorus, AST, CK and alkaline phosphatase. Treatment initiated in the early recovery period consisted of hyperventilation with 100% oxygen, stomach lavage with iced water, body surface cooling, and intravenous administration of cold isotonic saline solution. Cooling was continued until the rectal temperature had dropped to 37.3 degrees C. After treatment the dog recovered uneventfully. Clinical signs, pathophysiology, therapy, prevention of malignant hyperthermia and its association with other disorders are discussed.
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PMID:[Malignant hyperthermia as a complication of anesthesia in the dog]. 144 May 99

The hepatotoxic effects of hyperthermia have been proposed to be related to lipid peroxidation as a consequence of oxidative stress. This can result from exposure of the cell to "radical oxygen" species such as the superoxide and hydrogen peroxide generated by the activity of the oxidase form (type O) of xanthine oxidase (XO), which is converted to that form by perfusion of the liver at hyperthermic temperatures. These radical species are not reactive enough in themselves to cause cell damage but require the presence of a catalyst such as low molecular weight chelated iron. In these studies, ferritin was shown to be a source of iron for the oxidative stress of hyperthermia. (a) Iron was released from ferritin in vitro by the activity of rat liver XO. The rate of iron release from ferritin in this incubation system was a function of the amount of type O XO present and the temperature. Inclusion of allopurinol or superoxide dismutase in the incubation resulted in significantly lower rates of iron release. (b) Livers from Sprague-Dawley rats were perfused at 42.5 degrees and 37 degrees C for 1 h. During the recirculating perfusion, loss of iron from the liver into the perfusate was significantly greater (P less than 0.05) at 42.5 degrees C than at 37 degrees C. Also, there was a pronounced increase in the lactate dehydrogenase and aspartate aminotransferase enzymes in the perfusate during perfusion at 42.5 degrees C. Furthermore, intrahepatic levels of low molecular weight chelated iron were significantly (P less than 0.05) increased following perfusion at 42.5 degrees C. All these responses were abrogated by the inclusion of allopurinol in the perfusate. (c) Oxidative stress, assessed by the efflux of glutathione and oxided glutathione from the liver at 42.5 degrees and 37 degrees C, was significantly (P less than 0.05) increased at the hyperthermic temperature. This oxidative stress was inhibited by iron chelation and allopurinol. These results demonstrate that there is a causal relationship between the generation of superoxide by type O XO produced by hyperthermic perfusion and mobilization of iron from ferritin to form a pool of low molecular weight chelated iron. This iron pool in combination with active oxygen species leads to oxidative stress and lipid peroxidation.
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PMID:Involvement of xanthine oxidase in oxidative stress and iron release during hyperthermic rat liver perfusion. 155 Oct 99

To assess functional activity of leukocytes, lipid peroxidation and enzymes indicating the severity of organ lesion in food poisoning and acute dysentery, the investigators employed the techniques of luminol- and biacridine-activated chemiluminescence of pure granulocyte population and whole blood, plasma chemiluminescence, assays of AAT, AsAT, AP, LDG. A relationship was established between chemiluminescence of leukocytes and whole blood, between leukocytic functional activity and the disease duration and severity. Indomethacin treatment of the patients reduced intoxication, did not affect leukocytic function, diminished plasma chemiluminescence. Functional activity of leukocytes and the enzymes levels were prognostically significant. Low response of leukocytes to the stimulus, i.e. a small rise of functional activity, served an unfavourable prognostic sign. A role of active oxygen forms produced by leukocytes is suggested in pathogenesis of alimentary toxo-infection.
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PMID:[Functional activity of leukocytes and enzyme indicators in acute intestinal infections]. 161 Dec 59

Allyl alcohol injury to hepatocytes in the perfused liver is oxygen-dependent. It is not known if this injury involves direct action of allyl alcohol on hepatocytes or requires participation of other cell types (e.g., Kupffer cells) present in the liver. Accordingly, the action of allyl alcohol (100-500 microM) on isolated hepatocytes was studied using cells maintained at either 95 or 21% O2. Allyl alcohol toxicity, as indexed by trypan blue uptake, lactate dehydrogenase release, and ATP content, did not differ in the two groups of cells, suggesting that O2 dependency of allyl alcohol toxicity involves other cell types. Administration of allyl alcohol (30 or 40 mg/kg, ip) to rats caused extensive hepatic necrosis localized primarily to periportal regions. To test the involvement of Kupffer cells in the genesis of this injury, male rats (200-350 g) were treated with gadolinium chloride (GdCl3, 10 mg/kg, iv) which diminishes Kupffer cell function and number. The extent of hepatic damage assessed by light microscopy and serum enzymes, aspartate aminotransferase and alanine aminotransferase, was markedly attenuated by pretreatment of rats with GdCl3 24 hr prior to allyl alcohol injection. Thus, O2-dependent hepatic necrosis caused by allyl alcohol involves the presence of Kupffer cells. Since GdCl3 did not prevent toxicity in the perfused liver, circulating blood elements may also contribute to injury of the liver by allyl alcohol in vivo.
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PMID:Involvement of nonparenchymal cells in oxygen-dependent hepatic injury by allyl alcohol. 163 94

In addition to the normal carboxylation reaction, phosphoenolpyruvate carboxylase from Zea mays catalyzes a HCO3(-)-dependent hydrolysis of phosphoenolpyruvate to pyruvate and Pi. Two independent methods were used to establish this reaction. First, the formation of pyruvate was coupled to lactate dehydrogenase in assay solutions containing high concentrations of L-glutamate and aspartate aminotransferase. Under these conditions, oxalacetic acid produced in the carboxylation reaction was efficiently transaminated, and decarboxylation to form spurious pyruvate was negligible. Second, sequential reduction of oxalacetate and pyruvate was achieved by initially running the reaction in the presence of malate dehydrogenase with NADH in excess over phosphoenolpyruvate. After the reaction was complete, lactate dehydrogenase was added, thus giving a measure of pyruvate concentration. At pH 8.0 in the presence of Mg2+, the rate of phosphoenolpyruvate hydrolysis was 3-7% of the total reaction rate. The hydrolysis reaction catalyzed by phosphoenolpyruvate carboxylase was strongly metal dependent, with rates decreasing in the order Ni2+ greater than Co2+ greater than Mn2+ greater than Mg2+ greater than Ca2+. These results suggest that the active site metal ion binds to the enolate oxygen, thus stabilizing the proposed enolate intermediate. The more stable the enolate, the less reactive it is toward carboxylation and the greater the opportunity for hydrolysis.
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PMID:Hydrolysis of phosphoenolpyruvate catalyzed by phosphoenolpyruvate carboxylase from Zea mays. 163 56

We constructed conjugates of superoxide dismutase (SOD) and the Fc fragment of human immunoglobulin G. The lysyl residues of bovine erythrocyte Cu,Zn-SOD were covalently linked with cysteine residues of the Fc fragment using N-succinimidyl 4-(N-maleimido)-butylate as a crosslinking agent. Analysis by gel filtration and SDS-PAGE revealed that the conjugates were composed of one molecule of SOD linked with one molecule of Fc [SOD-(Fc)1] and one SOD molecule linked with several Fc molecule [SOD-(Fc)n]. The resulting SOD-Fc conjugates retained more than 90% of the enzyme activity of SOD. When those conjugates were administered intravenously to mice, the half-lives of SOD activity in the circulation were 29 and 42 h for SOD-(Fc)1 and SOD-(Fc)n, respectively, while free SOD had a half-life of 5 min. Intravenous administration of the conjugates to mice markedly repressed the increase in serum glutamic-oxaloacetic transaminase (GOT) activity induced by paraquat. These results suggest that SOD-Fc conjugates, which have long half-lives, effectively perform dismutation of superoxide radicals and may be useful for preventing tissue injury caused by hazardous oxygen metabolites.
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PMID:Conjugates of superoxide dismutase with the Fc fragment of immunoglobulin G. 166 88

During the past few years, a considerable number of studies have examined different aspects of the host response in gingival crevicular fluid (GCF), including the relationship of specific markers to the active phases of periodontal disease. Various indicators of the acute inflammatory response (the lysosomal enzymes beta-glucuronidase and collagenase, the cytoplasmic enzyme aspartate aminotransferase, and the arachidonic acid metabolite PGE2) have been shown to be associated with clinical attachment loss in chronic adult periodontitis in man and experimental periodontitis in animal models. In contrast, the relationship of indicators of the humoral immune response in GCF to active periodontal disease is equivocal. Furthermore, a number of indicators of the cellular immune response have been identified recently in GCF (i.e., Interleukin-1 alpha, IL-1 beta, tumor necrosis factor-alpha), but their relationship to active phases of periodontal disease have not been studied. The polymorphonuclear leukocyte (PMN) is the cellular hallmark of acute inflammation. Evidence from the GCF studies suggests that hyperreactivity of these cells plays a critical role in the active phases of some forms of periodontal disease. Metabolic activation of PMN can be associated with a number of potentially destructive reactions. The major effector mechanism for tissue destruction that can be specifically identified with the PMN is the synergistic effect of the release of PMN proteases and the generation of reactive oxygen metabolites by these cells. Priming of the PMN, where the PMN response is enhanced by agents that do not initiate the response, may be an important mechanism for PMN activation in the crevicular environment; for example, cytokines such as IL-1 beta and TNF-alpha, and lipopolysaccharides released from subgingival Gram-negative bacteria, can serve this function. The hypothesis proposed here argues that in addition to the severe forms of periodontal disease that have been associated with qualitative or quantitative PMN defects, tissue destruction in the periodontum can be observed with hyperreactivity of these cells. These differing conclusions do not create a dilemma, but may represent opposite ends of a balance that is no longer in equilibrium.
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PMID:Host mediators in gingival crevicular fluid: implications for the pathogenesis of periodontal disease. 173 70

Leucine and beta-(+/-)-2-aminobicyclo[2.2.1]heptane-2-carboxylic acid (BCH) stimulated, in a dose-dependent manner, reductive amination of 2-oxoglutarate in rat brain synaptosomes treated with Triton X-100. The concentration dependence curves were sigmoid, with 10-15-fold stimulations at 15 mM leucine (or BCH); oxidative deamination of glutamate also was enhanced, albeit less. In intact synaptosomes, leucine and BCH elevated oxygen uptake and increased ammonia formation, consistent with stimulation of glutamate dehydrogenase (GDH). Enhancement of oxidative deamination was seen with endogenous as well as exogenous glutamate and with glutamate generated inside synaptosomes from added glutamine. With endogenous glutamate, the stimulation of oxidative deamination was accompanied by a decrease in aspartate formation, which suggests a concomitant reduction in flux through aspartate aminotransferase. Activation of reductive amination of 2-oxoglutarate by BCH or leucine could not be demonstrated even in synaptosomes depleted of internal glutamate. It is suggested that GDH in synaptosomes functions in the direction of glutamate oxidation, and that leucine may act as an endogenous activator of GDH in brain in vivo.
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PMID:Activation of glutamate dehydrogenase by leucine and its nonmetabolizable analogue in rat brain synaptosomes. 196 60


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