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

Kindling is a process in which episodic electrical stimulation permanently increases seizure susceptibility. One mechanism to account for a change in seizure susceptibility is some alteration in signal transduction, possibly at the level of second messenger systems. In this study, male Long-Evans rats were kindled in the amygdala, and Ca2+/calmodulin (Ca2+/CaM)-dependent protein phosphorylation was assessed at the site of the primary kindled focus using one- and two-dimensional gel electrophoresis. In vitro phosphorylation of membrane and cytosol fractions in the presence of absence of Ca2+/CaM did not differentiate kindled from nonkindled amygdaloid tissue. These results suggest that changes in Ca2+/CaM-dependent phosphorylation are not related to the mechanism(s) underlying the establishment of an amygdaloid kindled focus.
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PMID:Ca2+/calmodulin-dependent protein phosphorylation is not altered by amygdaloid kindling. 204 15

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

Kainic acid (KA) is a potent neuroexcitatory drug widely used in the experimental study of seizure activity. Subcutaneous injection of KA into rats (10 mg/kg in saline 10 mg/ml; pH 7.0) induced longlasting status epilepticus followed by damage of CNS tissue in the entorhinal/pyriform cortex and in the hippocampus. The studies covered by this report demonstrated the formation of cytotoxic brain edema characterized by massive swelling of perineuronal and perivascular astroglia with microcirculation disturbance after KA injection, resulting in parenchymal necrosis of the affected region; furthermore perivenous hemorrhages and necroses corresponding to herniation lesions of the brain appear. Tracer studies with Na-fluorescein, Evans blue, albumin, and horseradish peroxidase revealed only a mild increase in the permeability of cerebral vessels, topographically unrelated to areas of brain edema. Treatment of brain edema with dexamethasone did not influence the incidence and severity of edematous brain damage. Treatment with mannitol, however, completely prevented the lesion in 54% of animals injected with KA. The present results indicate that brain edema plays an important role in the pathogenesis of epileptic brain damage following systemic KA intoxication. It is suggested that in this model brain edema develops due to massive ionic imbalance caused by KA induced persistent neuronal excitation. In addition the model demonstrates the possible pathogenetic role of selective astrocytic swelling in the production of local hippocampal ischemia followed by herniation and its sequels. Such pathology originating from astrocytes probably may occur also in closed brain injury.
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PMID:Some mechanisms of brain edema studied in a kainic acid model. 213 Jun 48

Age-related changes in blood-brain barrier permeability to macromolecules were investigated during electrically induced seizures. Evans-blue was used as the barrier tracer. There was no change in the permeability of the blood brain barrier associated with aging in the rats. However, the extravasation of Evans-blue albumin was most pronounced in the brain after ten repeated electroshocks in old rats. In the adult group that was given a single electroconvulsive shock, there was no coloration of the brain tissue, whereas the group given ten repeated electroconvulsive seizures showed slight staining of the thalamic nuclei, hypothalamus, and midbrain in 5 out of 13 rats. In 30-day-old rats, Evans-blue leakage was similar to that of adults, except that the frequency and intensity of blood-brain barrier breakdown was less after ten repeated electroshocks. In 15-day-old rats, the blood-brain barrier breakdown to Evans-blue albumin was the same after a single and ten electroshocks and the same in control and electroshocked rats. According to our results ten repeated electroshocks have a more pronounced effect on the old animals and have less effect on the young animals in comparison to adult ones.
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PMID:Age related changes in the effect of electroconvulsive shock on the blood brain barrier permeability in rats. 230 90

Trimethyltin (TMT) produces prominent neuron death in the hippocampus. The time-course of TMT-induced damage was studied using reduced-silver procedures for impregnation of degenerating axons and their terminals, and a modified Timm's stain procedure for visualization of hippocampal transitional metals. Standard cell body stains were also used. Fifty-four, adult, Long-Evans rats were gavaged with 6.0 mg TMT/kg b.wt. and 10 rats were gavaged with distilled water as controls. Five TMT-gavaged rats and one saline-gavaged rat were sacrificed on either postgavage day 1, 3, 6, 9, 14, 19, 30, 45, 70 or 99. Histological examination revealed a band of degenerating terminals in the stratum lucidum, below the hippocampal subfields CA3a,b pyramidal cells, by postgavage day 3. This preceded dentate gyrus granule cell loss supplying the mossy fiber input to the stratum lucidum by several days. Hippocampal pyramidal cell necrosis continued through the examination period while dentate granule cell loss subsided between postgavage days 9 and 14. Fiber and terminal degeneration was more extensive in the dorsal hippocampus than in the ventral hippocampus, although Timm's-stained sections revealed "bleaching" of stainable metal in the mossy fiber pathway of the ventral hippocampus. These data suggest that loss of ventral dentate granule cells might reduce TMT-induced necrosis of pyramidal cells in the ventral (temporal) part of the Ammon's horn, possibly by preventing the spread of seizure activity in this region of the hippocampus. Additionally, although previous studies have reported the toxic effects of TMT to last approximately 60 days, the results of the present study indicate that TMT-induced degeneration continues for more than 3 months. Reduced-silver stains, such as the Fink-Heimer procedure, appear to be more sensitive indicators of enduring neuropathology than more traditional cell stains.
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PMID:The time-course of trimethyltin-induced fiber and terminal degeneration in hippocampus. 247 Oct 52

The blood-brain barrier (BBB) can be opened transiently by infusing a hyperosmolal solution of a non-electrolyte into the internal carotid artery. We investigated the hypothesis that capillary polyamines and their rate-regulating synthetic enzyme, ornithine decarboxylase (ODC), may be involved in mediating BBB breakdown in this model, as they are in BBB breakdown by focal cold injury. The intracarotid infusion of 1.6 M mannitol induced a prompt (less than 2 min) increase in ODC activity and the levels of polyamines in the ipsilateral hemisphere. Isolated cerebral capillary preparations and neural elements showed similar increases in ODC activity. The rank order of increase at 2 min, ODC (170%) greater than putrescine (90%) greater than spermidine (15%) greater than spermine (7%), was consistent with an activation of the ODC-regulated pathway of polyamine synthesis. The specific ODC inhibitor alpha-difluoromethylornithine (DFMO) blocked the 1.6 M mannitol-induced increase in ODC activity and the accumulation of polyamines, and concurrently prevented BBB breakdown, monitored by transport of intravenously administered Evans blue and alpha-[3H]aminoisobutyrate into cerebral tissue. Exogenous putrescine, the product of ODC activity, replenished brain polyamines and negated DFMO protection allowing BBB breakdown by 1.6 M mannitol. These experiments support the hypothesis that BBB breakdown induced by the intracarotid infusion of hyperosmolal mannitol is mediated by rapid, ODC-regulated synthesis of microvascular polyamines. In addition, increases in ODC-controlled polyamine synthesis in nerve cells may play a significant role in the pathophysiology of the reversible neuronal dysfunction, e.g. diazepam-sensitive seizure-like activity, enhanced glucose utilization, evoked by the intracarotid infusion of hyperosmolal mannitol.
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PMID:Polyamines mediate the reversible opening of the blood-brain barrier by the intracarotid infusion of hyperosmolal mannitol. 249 41

Male Long-Evans rats were kindled by stimulation of the pyriform cortex using an afterdischarge (AD) threshold procedure that triggered one AD every 24 h. AD threshold dropped rapidly as long as the seizures remained localized, reaching an asymptote of 30% of its initial value by the 6th AD. In contrast, AD threshold rose progressively across the first six generalized seizures (i.e. ADs accompanied by forelimb clonus). This elevation in threshold was dependent upon the daily elicitation of a generalized seizure, and the threshold returned to its previous low value after 4 seizure-free days. This indicates that post-seizure inhibition in the pyriform cortex is a transient response produced by generalized seizures and is not related to the relatively permanent changes that underlie kindling.
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PMID:Twenty-four-hour post-seizure inhibition during limbic kindling requires seizure generalization. 274 13

The influence of hyperglycemia and moderate hypoglycemia plus electroconvulsive seizure on the permeability of the blood-brain barrier to protein was studied in rats. Evans blue was used as a blood-brain barrier tracer. Following a single electroconvulsive seizure, slight staining of brain tissue was seen. After 10 electroconvulsive stimuli followed by sustained seizure activity, this phenomenon was more pronounced in moderate hypoglycemic animals. In this group, Evans blue albumin extravasation occurred in all regions of the hemispheres, but the most severe protein leakage was seen in the thalamus, hypothalamus, amygdala nuclei, and frontal, parietal, and occipital cortex. Ten repeated electroconvulsive stimuli applied in case of hyperglycemia made no important difference in blood-brain barrier dysfunction according to normoglycemic group. Our results suggest that moderate hypoglycemia provokes the effect of electroconvulsive seizure on the permeability of the blood-brain barrier.
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PMID:Blood-brain barrier permeability after electrically induced seizure in normoglycemic, hypoglycemic, and hyperglycemic rats. 279 94

Age related changes in blood-brain barrier (BBB) permeability to macromolecules were investigated during seizures induced by pentylenetetrazol in rats aged from 6 to 120 days. Evans blue was used as a visual indicator of BBB integrity. BBB leakage due to seizures was present only in animals in which the mean arterial blood pressure (BP) rose with the seizure onset. Although considerable BBB damage was found partly in similar areas in young and adult rat brains, in adults the leakage of Evans blue was most intense in preoptic area, colliculus inferior, hypothalamus and cerebellum whereas the BBB opening was comparatively rare, in the same areas of young brains. In 6- and 15-day-old rats which did not differ in BP changes from the adults, the leakage was extremely intense in hypothalamus and hippocampus and in contrast to 30- or 120-day-old rats there was no leakage of Evans blue in preoptic area and cerebral cortex. From the results obtained, the conclusion may be drawn that the brain regions which are vulnerable to seizures induced by pentylenetetrazol differ markedly in developing and adult rats. On the other hand, in adult animals, either certain brain areas are more vulnerable to pentylenetetrazol or the BBB has an increased fragility particular to seizure activity. These results indicate that the sensitivity of BBB mechanisms may depend on proliferation of capillaries and changes in their internal structure and may emphasize it.
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PMID:Age-related changes in regional patterns of blood-brain barrier breakdown during epileptiform seizures induced by pentylenetetrazol. 292 22

Electrical kindling of the amygdala and hippocampus was used to evaluate the effects of two formamidines, chlordimeform (CDF) and amitraz (AMZ), upon seizures susceptibility in the rat. Male Long-Evans rats were implanted with electrodes in the amygdala or dorsal dentate gyrus, and injected IP daily with 40 mg/kg CDF, 50 mg/kg AMZ, or equal volumes of their respective vehicles. Afterdischarge (AD) thresholds were determined after the first injection. Animals were then stimulated twice daily, 2 and 4 hours postinjeciton, at a standard 200 microA stimulus intensity until three stage 5 generalized seizures ensued. Both CDF and AMZ significantly facilitated amygdaloid kindling rate, and CDF also facilitated hippocampal kindling rate. The effects of AMZ on hippocampal kindling were not assessed. AD durations were prolonged in the formamidine-treated groups, but there was no effect on AD thresholds. The alpha-2 adrenergic agonist and/or local anesthetic-like properties of these compounds may be responsible for these seizure enhancing effects.
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PMID:Formamidine pesticides enhance susceptibility to kindled seizures in amygdala and hippocampus of the rat. 321 Nov


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