Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Hepatic encephalopathy is a frequent complication of cirrhosis. Portal-systemic shunts and depression of hepatic function are the primary underlying abnormalities. Arterial blood ammonia levels are frequently elevated during hepatic encephalopathy and are lower when a clinical improvement is established. Glutamine synthesis is part of the metabolic pathway for ammonia cerebral detoxification that induces ATP and glutamate (excitatory neurotransmitter) depletion. Plasma levels of branched chain amino acids are reduced in patients with cirrhosis, this event allows aromatic amino acids to cross the hemato-liquoral barrier through exchange with glutamine. Cerebral excess of aromatic amino acids promotes the synthesis of octopamine and feniletiletanolamine, weak neurotransmitters. Benzodiazepine-like substances may affect GABA-ergic transmission by interacting with their receptors on the GABA-benzodiazepine complex. Therapy is aimed at controlling the events that may precipitate the acute encephalopathy, at reducing the ammonia levels, and correcting the neurotransmission abnormalities.
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PMID:[Hepatic encephalopathy. Pathogenesis and therapy]. 1284 6

The glutamine-glutamate/GABA cycle is critical for the developing brain as glutamatergic neurotransmission is important for neuronal survival and drives synaptogenesis and activity-dependent synaptic plasticity. GABAergic transmission may be essential for the formation of neural circuits. Recently a cDNA encoding a brain-enriched System A transporter (SAT1/ATA1), has been identified which may provide glutamine to neurons for the biosynthesis of neurotransmitters glutamate and gamma-aminobutyric acid (GABA). In this study, we have examined the developmental expression pattern of SAT1/ATA1 protein in rat brain by immunohistochemistry. We find that SAT1/ATA1 was present in the developing rat brain at all gestational ages examined including prenatal days 17 and 19 and postnatal days 2, 10, 14, and adult. SAT1/ATA1 immunoreactivity was seen in the neocortex, hippocampus, and neuroepithelium at the earliest time point examined, prenatal day 17. SAT1/ATA1 was prominent in the striatum, the hippocampus and the cortex in the postnatal animals. In adults, SAT1/ATA1 was limited to the cell body region while in developing animals SAT1/ATA1 protein was found in neuronal processes. These results contribute to our understanding of the relationship between the cycling of glutamate and glutamine between astrocytes and glia and the pathophysiological conditions that occur in hypoxic ischemic encephalopathy.
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PMID:Ontogeny of the neutral amino acid transporter SAT1/ATA1 in rat brain. 1285 86

The roles of glial energetics and of the glutamine cycle in diabetic encephalopathy have been investigated ex vivo by (13)C NMR in extracts of adult rat brain. Streptozotocin-induced diabetic or euglycemic animals received intravenous infusions of (1-(13)C) glucose in the absence and presence of trifluoroacetic acid or methionine sulfoximine, two selective inhibitors of the glial tricarboxylic acid cycle or of glutamine synthase, respectively. (1-(13)C) glucose infusions resulted in smaller (13)C incorporation in all carbons of cerebral glutamate, glutamine and GABA in the diabetic animals. Co-infusion of trifluoroacetic acid with (1-(13)C) glucose further reduced the (13)C enrichments in cerebral glutamate and glutamine, the decrease being larger in the diabetic animals than in the corresponding euglycemic controls. Methionine sulfoximine decreased to undetectable levels the fractional (13)C enrichment in the carbons of cerebral glutamine in both groups and had no significant effect on (13)C incorporation in glutamate and GABA, suggesting that glutamine is not the main precursor of glutamate and GABA. Additional animals were infused with (1,2-(13)C(2)) acetate, a major substrate of glial metabolism. In this case, (1,2-(13)C(2)) acetate infusions resulted in increased (13)C incorporation in all carbons of glutamate, glutamine and GABA in the diabetic animals. Together, these results reveal that diabetic encephalopathy has an important effect in astroglial metabolism, decreasing glucose transport and metabolism and increasing the relative contribution of glial oxidative metabolism to the support of glutamatergic and GABAergic neurotransmissions.
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PMID:Role of glial metabolism in diabetic encephalopathy as detected by high resolution 13C NMR. 1467 6

The principal cause of mortality in patients with acute liver failure (ALF) is brain herniation resulting from intracranial hypertension caused by a progressive increase of brain water. In the present study, ex vivo high-resolution 1H-NMR spectroscopy was used to investigate the effects of ALF, with or without superimposed hypothermia, on brain organic osmolyte concentrations in relation to the severity of encephalopathy and brain edema in rats with ALF due to hepatic devascularization. In normothermic ALF rats, glutamine concentrations in frontal cortex increased more than fourfold at precoma stages, i.e. prior to the onset of severe encephalopathy, but showed no further increase at coma stages. In parallel with glutamine accumulation, the brain organic osmolytes myo-inositol and taurine were significantly decreased in frontal cortex to 63% and 67% of control values, respectively, at precoma stages (p<0.01), and to 58% and 67%, respectively, at coma stages of encephalopathy (p<0.01). Hypothermia, which prevented brain edema and encephalopathy in ALF rats, significantly attenuated the depletion of myo-inositol and taurine. Brain glutamine concentrations, on the other hand, did not respond to hypothermia. These findings demonstrate that experimental ALF results in selective changes in brain organic osmolytes as a function of the degree of encephalopathy which are associated with brain edema, and provides a further rationale for the continued use of hypothermia in the management of this condition.
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PMID:Selective alterations of brain osmolytes in acute liver failure: protective effect of mild hypothermia. 1474 28

Hepatic encephalopathy (HE) is a neuropsychiatric complication of acute and chronic liver failure. Its clinical spectrum ranges from minimal (subclinical) to overt encephalopathy. Psychometric and electrophysiological tests are helpful in diagnosing minimal HE. However, changes in metabolites in the brain, such as depletion of myo-inositol and accumulation of glutamine, appear to be very sensitive and specific in diagnosing this form. Positron emission tomography has been useful in studying brain ammonia metabolism. The main focus of medical treatment has been to modify ammonia metabolism. Reduction in ammonia production can be achieved by, among others, a diet rich in vegetable protein and carbohydrate, and oral lactulose, oral antibiotics and sodium benzoate. L-ornithine-L-aspartate provides critical substrates for both ureagenesis and glutamine synthesis, the key pathways for ammonia detoxification. Recent trials have shown its effectiveness in the treatment of HE.
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PMID:Hepatic encephalopathy syndromes. 1502 44

In advanced cirrhosis there is a reduction in the brain concentration of many organic osmolytes, particularly myo-inositol (MI). Hyponatremia could theoretically aggravate these changes as a result of hypo-osmolality of the extracellular fluid. The aim of this study was to determine the effects of hyponatremia on brain organic osmolytes and brain water content in cirrhosis. Brain organic osmolytes, measured by (1)H-magnetic resonance spectroscopy, and brain water content, as estimated by magnetization transfer ratio (MTR) and measurement of brain volume were determined in 14 patients with dilutional hyponatremia, 10 patients without hyponatremia, and eight healthy subjects. Patients with hyponatremia had remarkable lower levels of MI compared with values in nonhyponatremic patients and healthy subjects. Brain MI levels correlated directly with serum sodium and osmolality. Serum sodium was the only independent predictor of low brain MI levels. Serum sodium also correlated directly with other brain organic osmolytes, such as choline-containing compounds, creatine/phosphocreatine, and N-acetyl-aspartate. By contrast, brain glutamine/glutamate levels were higher in patients with cirrhosis compared with values in healthy subjects and correlated with plasma ammonia levels but not with serum sodium or osmolality. No significant differences were found in MTR values and cerebral volumes between patients with and without hyponatremia. In conclusion, dilutional hyponatremia in cirrhosis is associated with remarkable reductions in brain organic osmolytes that probably reflect compensatory osmoregulatory mechanisms against cell swelling triggered by a combination of high intracellular glutamine and low extracellular osmolality. These findings may be relevant to the pathogenesis of encephalopathy in hyponatremic patients.
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PMID:Effects of dilutional hyponatremia on brain organic osmolytes and water content in patients with cirrhosis. 1518 2

The correlation between the glutamate-glutamine cycle and nitric oxide (NO) production in the central nervous system (CNS) of a new type of influenza-associated encephalopathy in children is discussed. When measurements of several amino acids and NOx (nitrite/nitrate) levels in the cerebrospinal fluid (CSF) using HPLC-fluorescence and -UV methods, respectively, were made. the CSF glutamate levels of patients with the new type of encephalitis were significantly lower, and both glutamine and NOx levels were significantly higher than those of the control group and the patients of the meningitis group. Results indicate that the turnover rate of glutamate in CNS, particularly in the brain, increases in the influenza-associated encephalopathy. The high mortality in the disease may correlate with the hyperactivity of supra-spinal glutamate neurons and the subsequent high activity levels of NOx in CNS.
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PMID:Extraordinary changes in excitatory amino acid levels in cerebrospinal fluid of influenza-associated encephalopathy of children. 1526 Jan 31

Ornithine transcarbamylase (OTC) deficiency is an X-linked disorder and the most common inherited cause of hyperammonemia. Clinical manifestations are more severe in hemizygous males who often present in neonatal period. Heterozygous females may be asymptomatic until juvenile or adulthood. Fluctuating concentration of ammonia, glutamine and other excitotoxic amino acids result in a chronic or episodically recurring encephalopathy. The authors report a heterozygous female with OTC deficiency who presented with recurrent encephalopathy.
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PMID:Intermittent hyperammonemic encephalopathy in a child with ornithine transcarbamylase deficiency. 1528 Jun 15

Ammonia is a neurotoxin that is implicated in the pathogenesis of hepatic encephalopathy due to acute and chronic liver failure. However, its relation to neurological damage and brain edema is poorly understood. During the last decades, it has been the prevailing hypothesis that an osmotic disturbance induced by the astrocytic accumulation of glutamine leads to brain edema. However, various findings are at variance with this hypothesis. The present review will discuss: (a) correlation of ammonia with encephalopathy and brain edema in HE; (b) glutamine synthesis and astrocyte swelling; (c) glutamine synthesis and the glutamine-cycle: relation to brain energy metabolism; (d) glutamine synthesis and the glutamate-glutamine cycle and its relation to anaplerotic activity; (e) evidence favouring the "glutamine hypothesis"; (f) evidence contradicting the "glutamine hypothesis"; (g) glutamine synthesis and osmoregulation; (h) glutamine synthesis in chronic liver failure; (i) impaired brain energy metabolism in acute liver failure (ALF) and its relation to astrocytic glutamine synthesis. Taken together, the precise role of glutamine in the development of brain edema in ALF remains unclear. Astrocytic changes due to glutamine accumulation may lead secondarily to effects on brain energy metabolism. However, the relation between impaired energy metabolism and glutamine accumulation has not been well established. It is noteworthy that no single biochemical factor appears to be responsible for the many symptoms of HE. For example, brain glutamine accumulation and low-grade brain edema occur in chronic liver failure (CLF) suggesting common mechanisms are responsible for the neurological dysfunction in CLF and ALF. Recent NMR spectroscopic studies have provided considerably new information in this area. Future NMR studies using the stable isotope 13C may be useful in the study of the dynamics of brain metabolism in patients with ALF so as to better elucidate the precise role of glutamine accumulation and of glutamine-independent components to brain edema in ALF.
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PMID:An update on the role of brain glutamine synthesis and its relation to cell-specific energy metabolism in the hyperammonemic brain: further studies using NMR spectroscopy. 1591 33

Intravenous immunoglobulin therapy is useful against various immune system disorders and viral infections. It is generally safe, and serious adverse reactions are uncommon. We report a rare case of acute encephalopathy following intravenous immunoglobulin therapy for human herpes virus 6 infection in a child. MR imaging findings suggest that the dominant causative mechanism of acute encephalopathy is cytotoxic edema, and the findings indicate 2 primary mechanisms. Reversibility of the restriction of water diffusion (low apparent diffusion coefficient value) on diffusion-weighted MR imaging suggests intramyelinic edema in the myelin sheath, and an increase of glutamate and glutamine complex peak on MR spectroscopy suggests excitotoxic injury to the neurons and astrocytes.
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PMID:Acute encephalopathy associated with intravenous immunoglobulin therapy. 1621 38


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