Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0085584 (encephalopathy)
 18,178 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Current theories on the pathogenesis of hepatic encephalopathy indicate that intestinal bacteria produce cerebral toxins, such as ammonia; colectomy has been proposed in the treatment of chronic portal systemic encephalopathy. This study was undertaken to evaluate the evolution of ammonemia and glutaminemia during a four month period in rats after a colectomy, with and without portal vein stricture. Groups of nine rats were studied: group 1 served as control study, total colectomy was performed on the rats in groups 2 and 3, but a gradual stricture of the portal vein was produced in the rats of group 3 and group 4 that had not had a colectomy. The ammonia levels were stable in groups 1 and 2, 48 +/- 2 milligrams per 100 milliliters; in group 3, ammonia levels rose significantly one week after portal vein stricture, 136 +/- 10, and decreased progressively until the end of the first month, 70 +/- 10, although in group 4 of the ammonia level always remained higher than in this one. The levels of glutamine decreased after colectomy in group 2 and rose markedly in both groups 3 and 4 during the first week but persisted at the same level only in group 4. These data confirm the importance of hepatic clearing of portal blood in ammonia and glutamine metabolism and underline the importance of the colon as the main, but not exclusive, site of splanchnic ammonia and glutamine production. The improvement in hepatic encephalopathy observed after removal of the colon may be due to the reduced output of these two substances.
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PMID:Effect of colectomy upon ammonemia and glutaminemia in rats with stricture of the portal vein. 720 55

Femoral arterio-venous (A-V) differences of blood free amino acids and plasma ammonia (NH3) were simultaneously determined after an overnight fast in 16 patients with decompensated liver cirrhosis in the absence and presence of encephalopathy, as compared with those in 8 control subjects. In spite of increased releases of phenylalanine (Phe) and tyrosine (Tyr) from the peripheral tissue, releases of isoleucine (Ile) and leucine (Leu) as well as alanine (Ala) were found to be significantly reduced in decompensated liver cirrhosis, particularly in the presence of hepatic encephalopathy. Furthermore, NH3 was found to be significantly taken up by the skeletal muscle of these patients, and a positive correlation was observed between arterial NH3 level and the A-V differences of Leu, of Ile and of Ala. These findings strongly suggest that net degradation (or utilization) of branched-chain amino acids (in particular, Leu and Ile) is enhanced in the muscle for detoxication of ammonia (i.e., glutamine synthesis) by supplying the carbon skeleton and energy in cirrhosis of the liver.
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PMID:Augmented utilization of branched-chain amino acids by skeletal muscle in decompensated liver cirrhosis in special relation to ammonia detoxication. 722 60

Acute hepatic ischaemia was induced in pigs by means of a portacaval shunt with hepatic artery ligation after 24 hours. Despite significant elevation in blood ammonia, fatty acids, aspartate aminotransferase, cerebrospinal fluid glutamine and ammonia, and brain tissue glutamine, ammonia and tryptophan, the experimental animals remained awake and alert and indistinguishable from sham-operated controls. The molar ratio of branched-chain to aromatic amino acids fell sharply in the arterial blood, but showed a terminal attempt at compensation in muscle venous samples. Portal and muscle venous insulin levels were elevated, and glucagon values rose in all circulation segments in the experimental group. The failure to induce coma in these pigs, despite the presence of many of the classical biochemical features, suggests that the syndrome of encephalopathy comprises several stages, and that the pig may be an important model in which to define these.
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PMID:Acute hepatic ischaemia in the pig- the changes in plasma hormones, amino acids and brain biochemistry. 725 Aug 93

Succinylated Acinetobacter glutaminase-asparaginase (SAGA) has broader antitumor activity than Escherichia coli L-asparaginase in experimental systems; moreover, drug resistance does not develop in tumor cell lines initially sensitive to this enzyme. We have investigated the pharmacology and toxicology of SAGA after both single-dose and serial daily dose injections in 20 adult patients. Glutaminase activity in plasma after i.v. injection of single doses did not follow simple first-order kinetics (half-life during the initial 24 hr was 21 +/- 9 hr. A linear relation was observed between increasing doses of SAGA and resultant levels of plasma enzyme activity and blood glutamate. Assay of whole blood which had been deproteinized immediately following phlebotomy showed that single doses of SAGA lowered glutamine only transiently to nondetectable levels; serial daily doses were required to achieve and maintain continuous glutamine depletion. Reversible depression of the central nervous system, ranging from encephalopathy to coma, occurred in a dose-related manner and was dose limiting. Other prominent reactions included respiratory alkalosis, hyperglycemia, nausea, and vomiting. Transient antitumor effects were noted in two patients with solid tumors and in two patients with leukemia. SAGA causes considerable neurotoxicity in adults which requires close patient monitoring. Phase II studies in leukemic patients are in progress.
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PMID:Phase I evaluation of succinylated Acinetobacter glutaminase-asparaginase in adults. 743 89

Evidence indicates that the accumulation of glutamine in the brain plays an important role in the pathogenesis and severity of the encephalopathy of acute liver failure (ALF). This study uses in vivo proton magnetic resonance spectroscopy (1H MRS) to assess brain glutamine (GLN) in five cases of acute liver failure. The findings are consistent with prior investigations and suggest that the alpha 1H of the GLN molecule can be used for noninvasive spectroscopic quantitation of brain GLN in patients with ALF.
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PMID:Proton spectroscopy of brain glutamine in acute liver failure. 862 Nov 71

Ornithine transcarbamylase deficiency is an X-linked disorder of the urea cycle that can cause hyperammonemic encephalopathy in hemizygous males and heterozygous females. Affected females typically limit protein intake in their diet. This case report describes a 36-year-old woman with ulcerative colitis who went into hyperammonemic coma after administration of total parenteral nutrition. A similar episode of coma had occurred 7 years earlier after she delivered a normal boy. Heterozygous ornithine transcarbamylase deficiency was diagnosed based on a positive allopurinol tolerance test result after elevated levels of plasma glutamine and low plasma citrulline were detected. The protein load associated with parenteral alimentation resulted in symptomatic expression of this partial enzyme deficiency in this unique case. Partial ornithine transcarbamylase deficiency must always be considered in adult women and men with hyperammonemia who have normal liver function test results.
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PMID:Hyperammonemic coma due to parenteral nutrition in a woman with heterozygous ornithine transcarbamylase deficiency. 779 25

Portacaval anastomosis in the rat results in liver atrophy, sustained hyperammonemia and mild encephalopathy. Previous studies have demonstrated region-selective alterations of glutamine and other ammonia-related amino acids in brain following portacaval anastomosis. Ammonia removal by brain relies on glutamine synthesis and the enzyme responsible, glutamine synthetase, has an almost exclusively astrocytic localization. Glutamine synthetase activities were measured using a radioenzymatic assay in homogenates of seven brain regions of rats four weeks after end-to-side portacaval anastomosis. Enzyme activities were significantly reduced in hippocampus (by 25%, p < 0.01), in cerebellum (by 29%, p < 0.01) and in cerebral cortex (by 14%, p < 0.05). Enzyme activities in other brain regions were within normal limits. Region-selective reductions of glutamine synthetase following portacaval anastomosis could result in disruption of neuron-glial metabolic interactions and in a deficit of glutamatergic synaptic regulation. Similar mechanisms could be implicated in the pathogenesis of hepatic encephalopathy accompanying chronic liver disease in humans.
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PMID:Region-selective reductions in activities of glutamine synthetase in rat brain following portacaval anastomosis. 791 Jun 53

Acute hepatic failure is associated with many biochemical abnormalities in plasma and brain. Changes that correlate well with the degree of behavioral impairment may be important factors in the development of encephalopathy. We measured the concentrations of intermediary metabolites, ammonia, and amino acids in brain and plasma and the rate of whole-brain glucose utilization in rats with an acutely devascularized liver. In all rats an estimate of the grade of encephalopathy (reflected by behavioral impairment) was made. Rats underwent portacaval shunting and hepatic artery ligation (or sham operation) and were kept normoglycemic and normothermic thereafter. We sampled blood and whole brain (by near-instantaneous freeze-blowing) 2, 4, or 6 h later. There were no alterations in levels of high-energy phosphate metabolites in the brain or in metabolites associated with the glycolytic pathway and Krebs cycle, except lactate and pyruvate. Brain glucose use was decreased similarly at all times after surgery. Levels of ammonia and many amino acids were increased in brain and plasma; brain aspartate, glutamate, and arginine levels were decreased. The increases in content of plasma ammonia and brain glutamine, proline, alanine, and aromatic amino acids and the decreases in brain aspartate and glutamate were most strongly correlated with behavioral impairment.
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PMID:Metabolic abnormalities and grade of encephalopathy in acute hepatic failure. 793 39

Acute liver failure was induced in rats by successive administrations of thioacetamide over 3 days. At progressing stages of hepatic encephalopathy (HE), brains were fixed with microwave irradiation for analysis of metabolite levels or with formaldehyde for histopathological analysis. Metabolite levels were determined using 1H-nuclear magnetic resonance spectroscopy of perchloric acid extracts of the frontal cortex, parietal or occipital cortex, hippocampus, striatum, brain stem, and cerebellum. After thioacetamide treatment, thioacetamide and its metabolites were detected in the brains at levels that did not correlate with the stage of HE. No changes were observed in the levels of N-acetylaspartate, alanine, gamma-aminobutyric acid, aspartate, or inositol in any brain region after thioacetamide treatment. HE was accompanied by elevated glutamine, glucose, and lactate throughout the brain. At all stages of HE, taurine was decreased in the neocortex and hippocampus, and glutamate and choline compounds were decreased in the frontal cortex. None of the metabolite changes showed progression with the stage of HE. Progressing HE was accompanied by increasing neuronal injury in layer III of the neocortex, in the Purkinje cells of the cerebellum, and in the hippocampus, particularly in the CA4 sector. The similarity of this distribution of injury to that associated with excitotoxic injury suggests that metabolic abnormalities after acute hepatic failure may give rise to adverse effects at excitatory (glutamatergic) neuronal receptors, leading to neuronal injury and clinical symptoms of progressing encephalopathy in this model. However, neuronal injury and the presence of thioacetamide and its metabolites in the brain raise questions about the validity of thioacetamide-induced liver failure as a model for clinical HE.
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PMID:Cerebral metabolic and histological effects of thioacetamide-induced liver failure. 821 78

Intracellular pH and ammonium ion concentration are potent modulators of cerebral amino acid metabolism. Furthermore, intracellular acidosis and hyperammonemia accompany conditions such as ischemic encephalopathy and seizures and may contribute to the pathological sequelae observed. In vivo NMR spectroscopy permits multiple, non-destructive measurements of important cerebral metabolic intermediates in the same animal. We describe here the use of 1H, and 31P NMR spectroscopy to investigate the effects of acute changes in intracellular pH and ammonium ions on cerebral glutamate, glutamine, and lactate levels in vivo. We then show how 1H NMR can be used to indirectly follow the flow of 13C label from [1-13C] glucose into the cerebral glutamate pool, allowing us to measure cerebral TCA activity in normal and chronically hyperammonemic rats. Male Sprague-Dawley rats (160-210 gm), fasted 24-hours, were tracheotomized, paralyzed and ventilated on 30% O2/70% N2O. NMR spectroscopy was performed at a field strength of 8.4 Tesla using a Bruker AM-360 wide bore spectrometer. An elliptical surface-coil (8 x 12 mm) was double-tuned to either the 1H and 31P or 1H and 13C frequencies. After retraction of extracranial tissues, the coil was positioned over the skull 2 mm posterior to the bregma. Tail arteries and veins were cannulated allowing periodic measurements of PO2, pCO2, pH and glucose in arterial blood and intravenous infusions. Respiratory acidosis was induced in rats by the addition of CO2 to the ventilation gas mixture. Arterial pCO2 increased within 5 min from a pre-hypercarbic value of 36.4 +/- 6.1 mm Hg to 200-220 mm Hg and was maintained at this level for over 1 hour. Hypercarbia led to rapid cerebral acidification. Intracellular pH decreased from 7.18 +/- 0.08 (pre-hypercarbic period) to 6.68 +/- 0.06 (n = 4) at 10 min and remained stable throughout the NMR observation period. Glutamate decreased to 53 +/- 4% of control after 60 min of hypercarbia, while glutamine increased to 126 +/- 7% of control. Acute hyperammonemia was produced by a programmed intravenous infusion of 250 mM ammonium acetate, which rapidly raised and maintained the concentration of ammonium ions in the blood at approximately 500 microM. Shortly after the start of the infusion (10-20 min), the levels of glutamine and lactate rose continuously throughout the experiment, reaching levels of 170 +/- 25% and 260 +/- 60% of control, respectively (n = 12) after 50 min. Glutamate decreased during the same time interval to 80 +/- 4% of control (n = 12).(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Cerebral metabolic studies in vivo by combined 1H/31P and 1H/13C NMR spectroscopic methods. 842 59


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