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)

In an attempt to elucidate the role of hepatic macrophages in liver injury, we investigated galactosamine-treated rats (500 mg per kg body weight). The rats received an i.v. injection of latex particles (2 x 10(9) particles per animal) prior to (latex-galactosamine) or 12 to 16 hr subsequent to the galactosamine treatment (galactosamine-latex). Effect of superoxide dismutase on hepatic injury induced by galactosamine or galactosamine-latex treatment was also examined. Oxygen-derived free radical-generating capacity of isolated hepatic macrophages was measured as chemiluminescence with the stimulation of phorbol myristate acetate or latex particles. As compared with normal rats, chemiluminescence of hepatic macrophages from galactosamine-treated rats was 5- to 10-fold enhanced 12 hr following galactosamine treatment and remained elevated for 48 hr. Chemiluminescence of the latex particle-pretreated macrophages in the liver was markedly suppressed even following the galactosamine treatment (p less than 0.01). Compared to galactosamine-treated rats, both lipid peroxide level in the liver tissue and AST and ALT concentration in serum were significantly decreased in the latex-galactosamine-treated rats (p less than 0.01) and increased in the galactosamine-latex-treated rats (p less than 0.01). Furthermore, superoxide dismutase supplementation protected against liver injury induced by the galactosamine-latex treatment. From these results, pretreatment with latex particles suppressed the free radical-generating capacity of hepatic macrophages and protected against hepatic injury induced by galactosamine. In contrast, injection of latex particles after galactosamine treatment aggravated hepatic injury, which was prevented by superoxide dismutase. These data suggest that liver injury induced by galactosamine is modulated by oxygen-derived free radicals from hepatic macrophages.
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PMID:Modulation of hepatotoxicity by macrophages in the liver. 283 5

Succinate synthesis from exogenous malate, alpha-ketoglutarate, oxaloacetate and L-glutamate in isolated oxygen-deprived rat heart mitochondria was studied using 1H NMR. The highest rate of succinate synthesis was observed during incubation of mitochondria with a mixture of L-glutamate and oxaloacetate. When mitochondria were incubated with [U-13C] glutamate and oxaloacetate the [U-13C] succinate/succinate and aspartate/succinate ratios were equal to 2. This suggests that the succinate produced from [U-13C] alpha-keto-glutarate formed via transamination of [U-13C] glutamate with oxaloacetate by aspartate aminotransferase exceeds twofold that synthesized via oxaloacetate reduction. It may thus be expected that GTP yield in a reaction catalyzed by the succinic thiokinase will be 2 times higher that of ATP production coupled with NADH-dependent fumarate reduction.
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PMID:A 1H NMR study of succinate synthesis from exogenous precursors in oxygen-deprived rat heart mitochondria. 286 22

Biopsies from m. quadriceps femoris from the operated leg of nine patients were taken before, and 6 weeks after, knee surgery. During the whole postoperative period the operated leg was immobilized with the knee in 40-50 degrees of flexion. Myoglobin (MYO) and the enzymes citrate synthase (CS), creatine kinase (CK) and its isozymes MB (CK-MB) and mitochondrial CK (CK-MIT), aspartate aminotransferase (ASAT), phosphofructokinase (PFK) and lactate dehydrogenase (LD) were determined on the biopsies. Citrate synthase, ASAT, CK, CK-MB, CK-MIT and LD activities were decreased (12-30%) after the postoperative leg immobilization period. Phosphofructokinase did not change, while MYO content was increased (16%). In conclusion, a different control of the synthesis of oxidative enzymes and MYO is suggested, as the induced changes following immobilization were in opposite directions. The function of the increased MYO content may be to facilitate the oxygen extraction.
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PMID:Increase in myoglobin content and decrease in oxidative enzyme activities by leg muscle immobilization in man. 297 30

In seven patients with implanted intermedics NOVA MR pacemakers, we examined the cardiopulmonary effects of maximum bicycle ergometer exercise for three types of pacing in a randomized sequence: VVI or AAI at 70/min (SSI 70), rate adaptive temperature controlled with the implanted NOVA MR, and rate adaptive activity controlled by means of a Medtronic Activitrax pacemaker taped to the chest wall, which triggered the implanted Nova MR in the VVT or AAT mode via skin electrodes. The maximum exercise tolerance was 67 W with SSI 70, 71 W with Activitrax and 91 W with Nova MR. The maximum oxygen uptake was accordingly 17.6 ml/min/kg with SSI 70, 19.5 ml/min/kg with Activitrax, and 21.5 ml/min/kg with Nova MR. The highest heart rate reached was 81 beats/min with SSI 70,98 beats/min with Activitrax and 118 beats/min with Nova MR. The rate increase from rest to maximum exercise was 11 beats/min with SSI 70,29 beats/min with Activitrax and 47 beats/min with Nova MR. An increase in exercise tolerance and maximum heart rate could be achieved with both rate adaptive types of pacing, but significantly more clearly with the temperature controlled Nova MR than with the activity controlled Activitrax. However, using a different form of exercise, e.g. treadmill ergometry, the rate response of the Activitrax would presumably have been somewhat clearer.
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PMID:[Cardiopulmonary stress test in variable frequency stimulation: a comparison of Activitrax and Nova-MR pacemakers in VVI/AAI stimulation]. 306 57

Hepatic 1,2-dibromoethane (DBE) metabolism proceeds via two pathways: oxidation by cytochrome P-450 and direct conjugation with the ubiquitous tripeptide glutathione (GSH) via the GSH S-transferases. The toxicity of DBE in monolayers of hepatocytes was assessed to establish whether the toxicity of this compound is increased under conditions of reductive metabolism at low oxygen concentrations. Our previous studies with t-butyl hydroperoxide and the calcium ionophore A23187 suggested that hypoxia would exacerbate toxicity that was mediated through lipid peroxidation or loss of calcium homeostasis. Monolayers of hepatocytes were exposed for 2 hr to 0, 14, 140, 1400, or 14,000 ppm of DBE in an atmosphere of either 1, 2, or 20% oxygen. Toxicity was measured by leakage of aspartate aminotransferase (AST) and trypan blue exclusion. The time course of the development of cytotoxicity was examined by assaying cell death both immediately following a 2-hr exposure and 24 hr later. The LC50 of DBE vapor was found to be approximately 14,000 ppm when assayed immediately after exposure but only 140 ppm when assayed 24 hr after exposure. The similarity of the percentages of DBE-induced cell death after incubations at 1, 2, and 20% oxygen demonstrates that the toxicity of DBE is oxygen-independent. We conclude that while DBE is highly toxic to rat hepatocytes, hypoxia does not appear to contribute to the toxicity of DBE, even under conditions of low oxygen concentrations. This result is in direct contrast to a previous report where we showed that the toxicity of halothane is potentiated under hypoxic conditions.
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PMID:Toxicity of 1,2-dibromoethane in primary hepatocyte monolayer cultures: lack of dependence on oxygen concentration. 313 87

We examined the cardiopulmonary effects of maximum bicycle ergometer exercise in seven patients with implanted Intermedics Nova MR pacemakers for three types of pacing in a randomized sequence: VVI or AAI at 70 beats/min (SSI 70), rate-adaptive temperature-controlled pacing with the implanted Nova MR, and rate-adaptive activity-controlled pacing with a Medtronic Activitrax pacemaker taped to the chest wall, which triggered the implanted Nova MR in the VVT or AAT mode by skin electrodes. The maximum exercise tolerance was 67 W with SSI 70, 71 W with Activitrax pacing, and 91 W with Nova MR pacing; the maximum oxygen uptake as 17.6, 19.5, and 21.5 ml/min/kg, respectively. The highest heart rate achieved was 81 beats/min with SSI 70, 98 beats/min with the Activitrax, and 118 beats/min with the Nova MR on average; the mean rate increase from rest to maximum exercise was 11, 29, and 47 beats/min, respectively. With both rate-adaptive types of pacing (Nova MR and Activitrax), an increase in exercise tolerance and maximum heart rate could be achieved, but this increase was significantly more obvious with the temperature-controlled Nova MR than with the activity-controlled Activitrax. However, with a different form of exercise, for example, treadmill ergometry, the rate response of the Activitrax would presumably have been somewhat clearer.
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PMID:First clinical results with a new temperature-controlled rate-responsive pacemaker. Comparison of Activitrax and Nova MR pacemakers with VVI/AAI pacing. 318 Mar 90

Oxygen free radicals have been implicated in the pathogenesis of postischemic liver injury. High-dose superoxide dismutase (SOD), a radical scavenging enzyme, has been investigated in a rat model of liver ischemia reperfusion by biochemical monitoring. Blood vessels to the median and left lobe were clamped for 1 h and then reperfusion was allowed. The indices used were serial venous blood levels of AST, ALT, calcium, and ATP determination in liver tissue. In SOD-treated animals (7,5000 U i.v.) a significant attenuation of the rise in enzyme levels was observed as well as the absence of the decrease in calcium level in the early phase after reperfusion as compared with control rats, and furthermore ATP restoration was significantly increased.
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PMID:Effect of superoxide dismutase on liver ischemia-reperfusion injury in the rat: a biochemical monitoring. 322 31

The relationship between transplant viability and liver function has been examined. Wistar rat livers were preserved at 4 degrees C for increasing intervals and then transplanted into Wistar rat recipients. Two critical times were identified, the longest preservation period with 100% transplantation success (4 hr) and the shortest preservation period with 100% transplant failure (8 hr). The comparable critical times were also identified in livers preserved at 37 degrees C (1 hr and 2 hr). Liver functions were studied by the isolated perfused liver technique in other rat livers stored at 4 degrees C or 37 degrees C for the critical times. Two liver function tests, AST and LDH concentration in perfusate, discriminated between viable and nonviable livers across as well as within preservation groups. AST gave the best separation between viable and nonviable livers. Some functions such as ALT concentration in perfusate separated viable from non viable allografts only within preservation groups. Other liver functions were more sensitive to preservation temperature than allograft viability. Oxygen consumption after cold preservation for either critical time was about twice control levels. Urea production was far below control levels in warm-preserved livers but almost normal in cold-preserved livers. Our results indicate that AST release into perfusate can be used as a screening technique to optimize preservation methods, reserving transplantation for confirming the most promising results.
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PMID:Markers of allograft viability in the rat. Relationship between transplantation viability and liver function in the isolated perfused liver. 331 44

Hypoxia, phenobarbital induction, and halothane anesthesia have been implicated in the pathogenesis of hepatotoxicity in the rat model. However, a controversy exists over the role of halothane in liver injury; does it act by reducing hepatic blood flow, thereby inducing hypoxia, or do its metabolites initiate the injury? These variables are difficult to separate during in vivo halothane exposure. In the present experiments, effects of halothane on hepatic perfusion were eliminated by exposing confluent monolayers of hepatocytes isolated from Fisher 344 rats livers, both with and without phenobarbital pretreatment, to 1.5% halothane or 2.0% isoflurane in 1%, 2%, or 4% (control) oxygen. Isoflurane exposure was included for a control of anesthetic effects on hepatocytes, because it is known to be metabolized minimally and probably is not associated with hepatic dysfunction. Oxygen levels were chosen to approximate those that may occur in the liver in vivo. Cell death was assayed via aspartate aminotransferase (AST) release, both immediately following a 2-h oxygen +/- anesthetic exposure and 6 h post-exposure. Per cent cell death data were analyzed using multiple regression techniques. Results obtained immediately, and 6 h after, exposure demonstrate that low oxygen levels, halothane, and phenobarbital were each highly significant factors (P less than .001) in relation to cell death, in agreement with the halothane-phenobarbital-hypoxia rat model. A toxic effect of isoflurane was not observed under identical experimental conditions. The results of the study clearly indicate that the origin of cell death in hepatocyte monolayers is multi-factorial; hypoxia, phenobarbital induction, and halothane exposure each contribute to the hepatocyte damage observed in our in vitro model.
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PMID:Comparative toxicity of halothane, isoflurane, hypoxia, and phenobarbital induction in monolayer cultures of rat hepatocytes. 335 86

The aim of this investigation was to study central haemodynamics in initially uncomplicated acute myocardial infarction (AMI) with respect to natural history, relation to enzyme estimated infarct size, mortality and effects of metoprolol. A total of 212 patients with AMI but without clinical signs of serious heart failure or hypotension and with a mean delay from onset of pain to study entry of about 7 hours were studied. They were randomised to placebo or metoprolol (15 mg i.v. + 50 mg orally q.i.d.) treatment. Central pressures and cardiac output were evaluated by repeated measurements over 24 hours by means of pulmonary artery catheters. The pharmacokinetics of metoprolol were studied in further 20 patients with AMI. The natural history, as reflected by the placebo group, was observed to be a gradual significant fall in systemic artery pressures, pulmonary capillary wedge pressure (PCWP; 13.6-10.5 mmHg) and stroke volume, while heart rate increased, leaving cardiac output unchanged. The decrease in PCWP was confined to the group with baseline pressure above the median of 13 mmHg and was of equal magnitude in the group given concomitant medication to that of those who required no such therapy. Significant but weak correlations between the peak serum aspartate aminotransferase level and the baseline PCWP (r = 0.28) and stroke volume (r = 0.22) were found. Non-survivors had a significant baseline depression of cardiac output and stroke volume, while PCWP was increased. However, the overlap with survivors was large. The dosage of metoprolol used resulted in mean plasma levels of about 200 nmol/l, which should induce a rapid and sustained degree of beta-blockade. The patients randomised to placebo or metoprolol were assessed according to initial heart rate. The haemodynamic changes induced by metoprolol were similar but were more pronounced in patients with high heart rate compared to those with low rate. In patients with heart rate greater than 65 beats/min, the metoprolol treated group, in comparison to the placebo group, was characterised by a decrease of 10-20% in systolic artery pressure and heart rate, suggesting a decreased myocardial oxygen consumption. Cardiac index (2.9-2.2 l/min/m2) and stroke volume index (36-32 ml/beat/m2) decreased to a minimum after 30 minutes and gradually rose thereafter. The PCWP increased from 13.7 to 15.4 mmHg, 30 minutes after the injection of metoprolol. This increase was confined to the group with baseline low pressure and the difference compared to the placebo group disappeared after 8 hours.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Central haemodynamics in acute myocardial infarction. Natural history, relation to enzyme release and effects of metoprolol. 353 97


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