UMLS:C0036572 - FACTA Search

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Query: UMLS:C0036572 (seizures)
80,221 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Changes in amino acid concentrations were studied in the cortex, cerebellum, and hippocampus of the rat brain, after 20 min of seizure activity induced by kainic acid, 47 mumol/kg i.v.; L-allylglycine, 2.4 mmol/kg i.v.; or bicuculline, 3.27 mumol/kg i.v. in paralysed, mechanically ventilated animals. Metabolic changes associated with kainic acid seizures predominate in the hippocampus, where there are decreases in aspartate (-26%), glutamate (-45%), taurine (-20%), and glutamine (-32%) concentrations and an increase in gamma-aminobutyric acid (GABA) concentration (+ 26%). L-Allylglycine seizures are associated with generalized decreases in GABA concentrations (-32 to -54%), increases in glutamine concentrations (+10 to +53%), and a decrease in cortical aspartate concentration (-14%). Bicuculline seizures, in fasted rats, are associated with marked increases in the levels of hippocampal GABA (+106%) and taurine (+40%). In the cerebellum, there are increases in glutamine (+50%) and taurine concentrations (+36%). These changes can be explained partially in terms of known biochemical and neurophysiological mechanisms, but uncertainties remain, particularly concerning the cerebellar changes and the effects of kainic acid on dicarboxylic amino acid metabolism.
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PMID:Changes in regional neurotransmitter amino acid levels in rat brain during seizures induced by L-allylglycine, bicuculline, and kainic acid. 614 32

Free amino acid patterns of cerebrospinal fluid in infants and children with various types of convulsive disorders were compared with those in age-matched normal subjects. The total free amino levels in Lennox syndrome were higher than the normal values, and those in infantile spasms controlled by ACTH were higher than those in uncontrolled infantile spasms. Although the levels of only one or two amino acids in tonic-clonic seizure, focal seizure and febrile seizure were higher or lower than those of the controls, the levels of 8 amino acids in infantile spasms were lower and those of 10 amino acids in Lennox syndrome were generally higher compared to the controls. Among amino acids in CSF of children with tonic-clonic seizure, infantile spasms or Lennox syndrome, only the ornithine level was commonly lower than that of the controls. After the treatment, in tonic-clonic seizure, the levels of taurine, asparagine and glycine were increased, and in infantile spasms, those of asparagine, glutamine, glycine, alanine, phenylalanine, lysine and arginine were increased while that of taurine was decreased. These results suggest that each type of convulsive disorder shows the specific amino acid pattern, and the effects of anticonvulsants may be partially understood through the changes of the free amino acid patterns in the brain.
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PMID:Amino acid metabolism in the brain with convulsive disorders. Part 3: Free amino acid patterns in cerebrospinal fluid in infants and children with convulsive disorders. 632 17

The subcellular distribution of amino acids was compared in brains of genetically seizure-susceptible (SS) and genetically seizure-resistant (SR) rats. The total taurine content (mumol/brain) in the P2B, or synaptosomal, fraction in SS rats was only 37% of that of SR rats. Glutamate, glutamine, glycine, alanine, and gamma-aminobutyric acid (GABA) contents were unaltered. No alterations in total content were found in other subcellular fractions for the amino acids studied. SS animals that had never been stimulated to audiogenic seizure had decreased concentrations of taurine (nmol/mg protein) in the P2, P2B, and P2C fractions as compared with SR animals. These fractions contain crude synaptosomes, enriched synaptosomes, and enriched mitochondria, respectively. Phosphoethanolamine concentrations were also decreased in the P2B fractions, but concentrations of other amino acids were unaltered, as compared with SR animals. Twenty-four hours after the intracerebroventricular injection of taurine (6 mumol) in SS animals that had never been convulsed, taurine concentrations were significantly increased in whole brain homogenate and P2 and P2B fractions as compared with SS animals not given taurine. This treatment left unaltered the concentrations of glutamate, glutamine, GABA, and glycine in brain homogenate and P2 fraction. Because decreases in taurine concentration were seen in animals that had not been convulsed, these alterations are intrinsic to the SS strain and are not a consequence of convulsive activity. In view of the antiepileptic action of taurine, and the fact that an impairment of taurine transport in the brain of SS rats had previously been demonstrated, we suggest that a defect in the biochemistry of taurine is partially responsible for the seizure susceptibility of the SS rat.
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PMID:Subcellular distribution of neuroactive amino acids in brains of genetically epileptic rats. 647 8

A conceptual approach to the understanding of the pathogenesis of idiopathic seizures is presented. Hypokalemia and/or alkalosis promotes the elaboration of an alkaline urine, which increases the renal return of ammonia and exposes the brain to chronically higher concentrations of ammonia. In the brain, ammonia is preferentially detoxified to glutamine and therefore depletes the available glutamic acid, which is also a precursor of GABA, the major mediator of central inhibition. Mild chronic elevations of ammonia may also result in long-term nutritional alterations of amino-acid precursors of other brain neurotransmitters. A linkage thus exists for the metabolic basis of seizures: the role of the potassium-ammonia axis may be important in the selective depletion of GABA, the major mediator of central inhibition.
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PMID:The metabolic basis for the genesis of seizures: the role of the potassium-ammonia axis. 671 18

A conceptual approach to the understanding of the pathogenesis of idiopathic seizures is presented. Hypokalemia and/or alkalosis promotes the elaboration of an alkaline urine, which increases the renal return of ammonia and exposes the brain to chronically higher concentrations of ammonia. In the brain, ammonia is preferentially detoxified to glutamine and therefore depletes the available glutamic acid, which is also a precursor of GABA, the major mediator of central inhibition. Mild chronic elevations of ammonia may also result in long-term nutritional alterations of amino-acid precursors of other brain neurotransmitters. A linkage thus exists for the metabolic basis of seizures: the role of the potassium-ammonia axis may be important in the selective depletion of GABA, the major mediator of central inhibition.
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PMID:The metabolic basis for the genesis of seizures: the role of the potassium-ammonia axis. 671 22

A neurochemical evaluation of beagle dogs with naturally occurring spontaneous generalized convulsive seizures was performed. Amino acid profiles of serum, cerebrospinal fluid (CSF), and biopsied cerebral cortex from epileptic dogs were compared with those from seizure-free siblings. No differences in absolute levels were noted. However, when levels were normalized as a percent of total free amino acids, seizures was performed. Amino acid profiles of serum, cerebrospinal fluid (CEF), and biopsied cerebral cortex from epileptic dogs were compared with those seizure-free siblings. No differences also the two groups differed in certain respects. Ten significant correlations between amino acid pairs appeared in epileptic dogs, but only one was seen in seizure-free animals. Seven of these ten correlations involved glutamate or taurine. It was noted that the highly correlated amino acids (taurine, glutamate, glycine, glutamine, alanine) all utilize sodium-dependent membrane transport processes. The sum of glutamate, aspartate, and glycine levels (competing sodium-dependent high-affinity systems) was significantly lower in epileptic beagles. Since this difference was noted in serum but not CSF or brain, it may indicate a diminished capacity of sodium-dependent high-affinity renal transport for acidic and certain small neutral amino acids.
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PMID:Amino acid changes in a genetic strain of epileptic beagle dogs. 677 70

We have proposed that glutamine serves in a facilitated diffusion process, mediated by the enzyme gamma-glutamyl transferase (gamma-glutamyl transpeptidase; gamma GT) and that it leaves the brain in exchange for entering amino acids. Glutamine is also a precursor of gamma-aminobutyric acid (GABA). Thus, providing an alternate substrate for gamma GT should spare brain glutamine, raise GABA, and cause an anticonvulsant effect. We have found that glycylglycine, the best-known substrate for gamma GT, and delta-aminovaleric acid (DAVA), a structural analog, have anticonvulsant activity in DBA/2J mice. Both compounds can decrease the incidence and severity of seizures induced by L-methionine-RS-sulfoximine or electroconvulsive shock. DAVA was also tested and found to be active against seizures caused by pentylenetetrazol or picrotoxin. [14C]DAVA entered the brain at the rate of 18.7 nmol/g/min. The activity of DAVA as a substrate of gamma GT was intermediate to that of glycylglycine and glutamine. Preliminary studies have shown that brain glutamine and perhaps GABA are elevated 3 h after administration of DAVA (7.5 mmol/kg). These findings support the theory that glutamine exchange plays a role in amino acid transport across the blood-brain barrier and suggests a new concept in anticonvulsant therapy.
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PMID:Anticonvulsant activity of glycylglycine and delta-aminovaleric acid: evidence for glutamine exchange in amino acid transport. 683 37

This is a study of the effects of chronic hypernatremic dehydration and rehydration on carbohydrate, energy, and amino acid metabolism in the brains of weanling mice. Chronic hypernatremic dehydration induced by 4 days of water deprivation and salt loading was associated with severe weight loss (no other observed clinical effects), increased brain Na+ levels, and a decreased brain water content. Changes in the concentrations of brain glucose, glycolytic and citric acid cycle metabolic intermediates, and phosphocreatine were compatible with reduced cerebral metabolic rate. In adaptation to chronic hypernatremia, there was a significant increase in the content of the measured brain amino acids. Rapid rehydration over a 4-h period with 2.5% dextrose in water returned plasma Na+ levels and brain Na+ and water contents to normal. After rehydration, metabolites were altered in a manner consistent with increased fluxes through the glycolytic pathway and citric acid cycle; the brain glycogen content almost tripled. Brain taurine and glutamine levels were not lowered by rehydration, and the total content of the measured amino acids in brain was still significantly higher than in controls. We speculate that these metabolic perturbations may relate to the development of cerebral edema and seizures or coma following rapid rehydration of humans with chronic hypernatremic dehydration.
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PMID:Effect of chronic hypernatremic dehydration and rapid rehydration on brain carbohydrate, energy, and amino acid metabolism in weanling mice. 684 62

D-glutamine, 6 mumols/chick, injected intracranially one min after training, produces retrograde amnesia when tested 24 and 48 hr post training on an avoidance task. D-glutamine also produces ectostriatal seizures that correlate with amnestic activity.
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PMID:D-glutamine produces seizures and retrograde amnesia in the chick. 719 65

Folic acid (pteroyl-L-glutamine acid, PGA), when injected into the rat striatum, has the kainic acid (KA) property of inducing sustained seizures and a disseminated pattern of distant brain damage, but lacks the KA property of destroying neurons locally at the injection site. This suggests the interesting possibility that one component of KA neurotoxicity (seizure-related distant damage) may involve interaction with a folate system. Folates are promising tools for exploring the neurotoxic properties of KA and, more importantly, for studying mechanisms of epilepsy and epileptic brain damage.
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PMID:Intrastriatal folic acid mimics the distant but not local brain damaging properties of kainic acid. 727 16

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