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)

Soman, an organophosphorous irreversible inhibitor of acetylcholinesterase, was studied for its effect on the rat blood-brain barrier (BBB) during the first 24 h of intoxication. Young adult male Sprague-Dawley rats, injected with Evans blue-dye and surviving a subsequent single convulsive dose of soman (114 micrograms/kg, 0.9LD50), presented focal and diffuse penetration of dye in areas of brain normally considered protected by the BBB. Invasion was widest during the first hour when signs of excitation, respiratory distress and convulsions peaked and was absent at 24 h. During this time period, cholinesterase inhibition, as measured by enzyme assay, persisted in brain and blood at 10% and 6% of control values respectively. Brains of nonconvulsing animals and animals pretreated with nembutal (45 mg/kg, I.P.) or with diazepam (10 mg/kg, I.P.) were free of extravasated dye. A ranking of dye-breached brain areas suggested that cerebellar and cerebral cortex were most frequently involved while brain stem was rarely stained. Ultrastructural analysis of breached areas with horseradish peroxidase as a tracer molecule, revealed that the probable subcellular mechanism of the induced breach was enhanced vesicular transport, a mechanism similarly described for seizure. Consequences of the breach were emphasized with the detection of significantly elevated levels of an exogenously administered quaternary compound, 3H-hexamethonium. These findings present additional evidence that an anticholinesterase-induced breach of the rat blood-brain barrier is convulsive dependent, demonstrates BBB mechanisms similar to that of seizure, and can allow CNS penetration of blood-borne drugs and circulatory proteins that normally would be slowed or excluded by an intact BBB.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of an anticholinesterase compound on the ultrastructure and function of the rat blood-brain barrier: a review and experiment. 207 Mar 59

In our previous study, we have demonstrated that intra-amygdaloid injection of dibutyryl-cAMP causes neuronal damage in the injected AM and the CA 1-3 subfields of the ipsilateral hippocampus in addition to epileptic seizures. This result suggested that db-cAMP is a new neuroexcitotoxin. In this study, we examined comparative morphological effect on acetylcholinesterase (AChE) following intra-amygdaloid injection of db-cAMP or, kainate. In Expt. 1, twenty rats received 100 micrograms db-cAMP (N = 10), 0.5 micrograms kainate (N = 4), or saline as a vehicle (N = 6), through the implanted cannula under non-anesthesia. Either kainate or db-cAMP produced epileptic seizures, while saline induced no electroclinical ictal response. Following db-cAMP or kainate injection, neuronal loss was observed in the injected AM, but AChE positive fibers were intact. In the hippocampus ipsilateral to the injected AM, the loss of pyramidal cells was also noted in accordance with the severity of seizure intensity. In the piriform cortex ipsilateral to the injected AM, the loss of AChE-positive fibers were seen, but sparing neuronal cell bodies. In Expt. 2, nineteen rats were injected with 100 micrograms db-cAMP (N = 7), 0.5 micrograms kainate (N = 7), or saline as a vehicle (N = 5) under pentobarbital anesthesia. Kainate or db-cAMP produced few sporadic spikes.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Neuroexcitotoxic action of db-cAMP: lesioning of neuronal cell bodies while sparing fibers of passage]. 216 8

1. Gamma-vinyl GABA (GVG) is a new anticonvulsant drug that enhances levels of GABA in the brain by irreversibly inhibiting GABA transaminase. 2. To further evaluate the effects and mechanism of action of GVG in the human brain, we measured acetylcholinesterase (AChE) activity and levels of homovanillic acid (HVA), 5-hydroxyindoleacetic acid (5-HIAA), cyclic nucleotides (cAMP, cGMP), total GABA (TGABA), and GVG in CSF of 78 patients with complex partial epilepsy. The CSF samples were taken at baseline and after 3 months of GVG administration (3 g GVG per day). Thereafter, the responders (= 50% decrease in number of seizures) were divided (double-blind) into two groups that received either 1.5 g or 3 g of GVG per day for the next 3 months. The third CSF sample was taken after this double-blind period. 3. TGABA levels were increased during the GVG treatment (p less than 0.001). In the whole group of patients AChE, HVA, 5-HIAA, and cAMP did not differ from baseline values, cGMP levels were slightly elevated after 3 months of GVG administration (p = 0.019), but were no longer elevated after 6 months. Responders had slightly lower AChE activity than nonresponders (p = 0.041). After 6 months of drug treatment the cGMP levels of patients receiving 1.5 g of GVG did not differ from those receiving 3 g. 4. In conclusion, GVG administration elevates levels of TGABA in the CSF without any clear of constant change to cholinergic and aminergic transmission or effect on cyclic nucleotides. Our study further emphasizes the specific mechanism of action of GVG via GABAergic transmission.
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PMID:Effect of gamma-vinyl GABA treatment on cholinergic and aminergic neurotransmission and on cyclic nucleotides in human complex partial epilepsy--a CSF study. 245 56

Three days after systemic administration of kainic acid (15 mg/kg, s.c.), selected cholinergic markers (choline acetyltransferase, acetylcholinesterase, muscarinic acetylcholine receptor, and high-affinity choline uptake) and GABAergic parameters [benzodiazepine and gamma-aminobutyric acid (GABA) receptors] were studied in the frontal and piriform cortex, dorsal hippocampus, amygdaloid complex, and nucleus basalis. Kainic acid treatment resulted in a significant reduction of choline acetyltransferase activity in the piriform cortex (by 20%), amygdala (by 19%), and nucleus basalis (by 31%) in comparison with vehicle-injected control rats. A lower activity of acetylcholinesterase was also determined in the piriform cortex following parenteral kainic acid administration. [3H]Quinuclidinyl benzilate binding to muscarinic acetylcholine receptors was significantly decreased in the piriform cortex (by 33%), amygdala (by 39%), and nucleus basalis (by 33%) in the group treated with kainic acid, whereas such binding in the hippocampus and frontal cortex was not affected by kainic acid. Sodium-dependent high-affinity choline uptake into cholinergic nerve terminals was decreased in the piriform cortex (by 25%) and amygdala (by 24%) after kainic acid treatment. In contrast, [3H]flunitrazepam binding to benzodiazepine receptors and [3H]muscimol binding to GABA receptors were not affected 3 days after parenteral kainic acid application in any of the brain regions studied. The data indicate that kainic acid-induced limbic seizures result in a loss of cholinergic cells in the nucleus basalis that is paralleled by degeneration of cholinergic fibers and cholinoceptive structures in the piriform cortex and amygdala, a finding emphasizing the important role of cholinergic mechanisms in generating and/or maintaining seizure activity.
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PMID:Changes in cholinergic but not in GABAergic markers in amygdala, piriform cortex, and nucleus basalis of the rat brain following systemic administration of kainic acid. 254 59

We studied the effect of pentylenetetrazol (PTZ)-induced kindling (35 mg/kg, i.p., daily) on somatostatin-like immunoreactivity (SOM) with special attention to the duration of changes (rats were sacrificed either 10 days or 4 months after the development of kindling) and to transmitters or modulators related to somatostatin (neuropeptide Y (NPY), GABA, choline acetyltransferase (ChAT), acetylcholinesterase (AchE]. In rats sacrificed 10 days after the last kindled seizure, SOM was elevated in frontal cortex and striatum (p less than 0.01); NPY was elevated in frontal cortex, striatum and hippocampus (p less than 0.05) of kindled or prekindled rats (i.e., rats which were treated daily with PTZ but did not express three consecutive generalized seizures). ChAT activity was slightly decreased (p less than 0.05) in cortex. GABA levels and AchE activity were unchanged in kindled cortex. In rats sacrificed 4 months after the development of kindling none of the parameters analyzed differed from controls. The present study suggests that the cortical and striatal neurons containing SOM/NPY are affected by PTZ-kindling. The cortical cholinergic system is affected to a much smaller extent. The neuropeptide changes are not persistent, as is the lowered seizure threshold, so they are probably not involved in the maintainance of the latter.
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PMID:Somatostatin, neuropeptide Y, GABA and cholinergic enzymes in brain of pentylenetetrazol-kindled rats. 257 17

Field potentials and unitary activity were investigated in the grafted and the host hippocampi in freely moving rats and in vitro. The subcortical afferents and efferents of the hippocampus (fimbria-fornix, FF) were removed by aspiration. Solid pieces of hippocampal grafts derived from 15- to 16-day-old fetuses were placed in the lesion cavity in rats with unilateral FF lesions, and cell suspensions prepared from fetal hippocampi were grafted directly into the host hippocampi in animals with bilateral FF lesions. Reciprocal communication between the grafted and the host hippocampi was monitored with a 16-microelectrode probe from 7 to 10 months after grafting. The fluorescent retrograde tracer, Fluorogold, was used to examine graft-host projections and acetylcholinesterase staining to reveal host-derived fibers in the graft. The most typical neuronal pattern of the hippocampal graft was a highly synchronous population burst with concurrent EEG spike. The speed of propagation of the EEG spike within the graft and across the graft-host interface was either fast (greater than 3 m/s) or slow (less than 0.5 m/s). Large amplitude, short duration EEG spikes usually propagated with a high speed, while smaller amplitude, wider spikes with broad population bursts spread at a lower velocity. The direction of propagation was usually uniform indicating that the population burst was triggered by a localized subgroup of highly excitable neurons ("focus"). Spontaneous seizures were also present in the solid graft which frequently invaded the host hippocampus. The incidence of EEG spikes was three times higher in rats with bilateral suspension grafts than in animals with FF lesion only. In about half of the grafted rats spontaneous behavioral seizures were also observed. Intracellular recordings from putative pyramidal cells in the graft and in the host revealed large amplitude (10-12 mV), spontaneously occurring EPSPs. IPSPs were difficult to detect even during depolarizations of up to 20 mV from rest. We suggest that the increased excitability of the hippocampal graft is due to the high incidence of recurrent excitatory collaterals terminating on or close to the somata of pyramidal neurons. Population bursts may spread fast via extensively arborizing axon collaterals or slowly by successively activating new sets of neighboring neurons. Spontaneous behavioral convulsions are explained by assuming that the grafted hippocampus serves as an epileptic focus which is capable of kindling the host brain by repeated seizure induction.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The grafted hippocampus: an epileptic focus. 274 24

Nonsynaptic mitochondria isolated from rat brain hippocampus were compared with those obtained by means of the same preparative procedure from cerebral cortex and striatum. Protein recovery, marker enzyme activities (lactate dehydrogenase, citrate synthase, and acid phosphatase), state 4 respiration, and response to hypoosmotic shock showed no difference among the three cerebral regions, suggesting homogeneous behavior during the subfractionation procedure. Cholinergic markers--choline acetyltransferase, acetylcholinesterase activities, and high-affinity choline uptake--evaluated on synaptosomes showed the classic regional pattern with an enrichment in the striatum (striatum much greater than hippocampus). The coupling state of the mitochondrial fractions was maintained (respiratory control ratios ranging from 3.62 to 5.08 with glutamate + malate as oxidizable substrates), showing a metabolic competence sufficient to perform metabolic studies. Regional differences were found in state 3, uncoupled state of respiration, and cytochrome oxidase activity. Hippocampus showed the lower values (hippocampus less than striatum less than cortex). A possible role of this lower capacity of mitochondrial energy metabolism in determining the sensitivity of hippocampal neurons to ischemia or epileptic seizures is suggested.
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PMID:Oxidative metabolism of nonsynaptic mitochondria isolated from rat brain hippocampus: a comparative regional study. 283 1

We measured neurotransmitter markers in autopsied brain of infants with glycine encephalopathy (GE). Because patients with GE develop intractable seizures, special attention was devoted to those neurotransmitter systems implicated in human epilepsy. Mean levels of glycine in the frontal cortex of GE patients were three times higher than control values. No abnormalities were observed for concentrations of gamma-aminobutyric acid (and related receptors), other major neurotransmitter amino compounds, or activities of cholineacetyltransferase and aspartate aminotransferase. Mean acetylcholinesterase activity was significantly elevated by 46%. As experimental data suggest, glycine markedly potentiates the action of the excitatory neurotransmitter glutamic acid. To the extent that the brain seizures in patients with GE can be explained by this mechanism, pharmacotherapy with excitatory amino acid antagonists may represent a new approach to the treatment of GE.
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PMID:Brain neurotransmitters in glycine encephalopathy. 290 30

Unilateral intrastriatal injection of quinolinic acid (2,3 pyridine dicarboxylate; QUIN) in the rat produces episodic barrel rotations and tonic-clonic forepaw movements, lasting for several hours. We investigated whether intraperitoneal posttreatment with anticonvulsants could abolish this phenomenon when it is already fully developed, and whether their potency ratio was similar in models of epilepsy. All 8 tested antiepileptics, namely carbamazepine, clonazepam, diazepam, diphenylhydantoin, ethosuximide, flunarizine, phenobarbital and sodium valproate decreased this behaviour in a dose-dependent way. Six other drugs with anticonvulsant properties were also effective: DL-2-amino-7-phosphonoheptanoic acid, desipramine, etomidate, ketamine, meprobamate and sabeluzole. The ED50-values for halving the frequency of the episodes of barrel rotation correlated well with published ED50-values for inhibition of tonic hindpaw extension in the maximal metrazol seizure test (rs = .95, p less than 0.001) and with the ED50-values for halving the duration of the forepaw clonus in the rat-kindling model (rs = .93, p less than 0.001). This quinolinic acid test allows visualization of the onset of action of anticonvulsants, with each animal as its own control. In order to assess whether this test is also sensitive to drugs influencing the symptoms of Huntington's disease, the effect of the dopamine antagonists haloperidol and pimozide, the acetylcholinesterase inhibitor physostigmine and the anticholinergics atropine and dexetimide were investigated as well. The experiments suggested that the barrel rotations and clonic forepaw movements, only 3-6 hours after intrastriatal injection of QUIN respond to anticonvulsants, but are not specifically sensitive to drugs used in the symptomatic treatment of Huntington's disease.
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PMID:Episodic barrel rotations induced by intrastriatal injection of quinolinic acid in rats. Inhibition by anticonvulsants. 297 64

Seizure-experienced Genetically Epilepsy-prone Rats (GEPRs) have increased acetylcholine content and choline acetyltransferase activity in the thalamus and striatum. These cholinergic differences are accompanied by a slight but statistically significant reduction in acetylcholinesterase activity in the midbrain. In addition, no abnormalities were found in the numbers of specific 3H-QNB binding sites in the striatum, hippocampus, inferior colliculi or cortex. Other work has shown no difference in muscarinic receptor function as measured by carbachol-stimulated inositol-1-phosphate formation. These data suggest a possible presynaptic defect in the striatal and thalamic cholinergic system which may play some role in the seizure-prone state of the GEPR. However, caution must be used in interpreting these cholinergic derangements since more recent findings show no differences in thalamic acetylcholine content in seizure-naive GEPRs. Thus, the original cholinergic abnormalities detected in the seizure-experienced GEPR may be an enduring response to seizure activity.
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PMID:Abnormalities in the central cholinergic transmitter system of the genetically epilepsy-prone rat. 301 14

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