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)

Small unilateral electrolytic lesions placed in the hilus of the dentate gyrus produce limbic seizures. We have investigated the effects of these hilar lesions on the levels of the mRNAs encoding for 3 neurotrophic factors (NTF): nerve growth factor (NGF), brain-derived neurotrophic factor (BDNF) and neurotrophin-3 (NT3). 'In situ' hybridization histochemistry with synthetic oligonucleotides was used to analyze their mRNA distribution and levels. In agreement with previously published data (Science, 245 (1989) 758-761), NGF mRNA was found bilaterally, quickly and transiently increased in granule cells of the dentate gyrus. Only 2 h after the onset of limbic seizures, mRNA levels for BDNF were also found to be dramatically elevated in both sides of the hippocampus, reaching a maximum 30-fold increase in the granule cell layer of the dentate gyrus 5 h after the lesion. Moreover, increased levels of this mRNA were also been found in the pyramidal layer of the CA3 (5-fold) and CA1 (15-fold) hippocampal fields. In contrast, NT3 mRNA was found to be clearly and bilaterally decreased in dentate gyrus granule cells, reaching 5- to 6-fold decreased levels at 12 h after lesion. Taken together, these results clearly show a different regulation of neurotrophic factors genes (NGF, BDNF and NT3) expression in the different hippocampal fields, as a consequence of seizure-producing hilar lesions.
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PMID:Limbic seizures induce a differential regulation of the expression of nerve growth factor, brain-derived neurotrophic factor and neurotrophin-3, in the rat hippocampus. 131 16

Studies of the hippocampal formation have demonstrated that seizure activity stimulates a complex pattern of changes in gene expression in differentiated adult neurons including alterations in levels of mRNAs encoding putative neurotransmitter/neuromodulator substances and neurotransmitter receptors. Thus, activity-dependent alterations in gene expression can be expected to effect transient changes in synaptic physiology by modification of both presynaptic and postsynaptic constituents. In work to be reviewed here, seizure paradigms have been utilized to study the influence of activity on the expression of the nerve growth factor (NGF) family of neurotrophins by the dentate gyrus granule cells. We have found that seizures increase the expression of mRNAs for NGF and brain-derived neurotrophic factor (BDNF) but cause a delayed decrease in levels of mRNA for neurotrophin-3 (NT-3) in the granule cells of the dentate gyrus. Differences in the time courses of neurotrophin induction by seizure suggest that multiple regulatory mechanisms are involved. These findings indicate that physiological activity differentially regulates the expression of the three neurotrophins within individual adult forebrain neurons. Moreover, the induction of neurotrophin expression by seizure suggests a mechanism by which epileptiform activity might leave an enduring trace in the functional and structural properties of forebrain circuits which might influence the susceptibility for further seizure activity.
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PMID:The dentate gyrus: a model system for studies of neurotrophin regulation. 133 62

Nerve growth factor (NGF) and brain-derived neurotrophic factor (BDNF) are structurally related survival and differentiation factors for distinct sets of peripheral and central neurons. The regulation of NGF gene expression has been extensively studied in L929 mouse fibroblasts. L929 cells also express the BDNF gene. Northern blot hybridization analysis revealed 4 discrete BDNF mRNA species in L929 cells and rat hippocampus after induction of seizures with kainic acid. Serum as well as 12-O-tetradecanoyl phorbol-13-acetate (TPA) stimulated NGF and all 4 BDNF mRNAs in L929 cells. Treatment with both agents induced NGF mRNA to a much larger extent than the BDNF mRNAs. The induction of the BDNF mRNAs was rapid, with nearly maximal levels by 1 hr. In contrast, NGF mRNA induction occurred later and peaked at 4-6 hr. Both NGF and BDNF mRNA induction were inhibited by actinomycin D. Cycloheximide, on the other hand, inhibited only NGF but not BDNF mRNA induction. Corticosterone rapidly decreased NGF mRNA but not the BDNF mRNAs, and had no effect on seizure-induced NGF or BDNF mRNAs. Forskolin did not stimulate NGF or BDNF mRNAs. In contrast to NGF mRNA, forskolin did not interfere with the serum induction of BDNF mRNAs. These results demonstrate that 2 genes which encode closely related neurotrophic factors are differentially regulated in L929 cells. The molecular mechanisms which bring about this differential regulation remain to be elucidated.
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PMID:Differential regulation of the nerve growth factor and brain-derived neurotrophic factor genes in L929 mouse fibroblasts. 133 58

In situ hybridization techniques were used to analyse the spatiotemporal pattern of brain-derived neurotrophic factor messenger RNA elevation associated with kainic acid-induced seizure activity in the rat. Pronounced increases in hippocampal brain-derived neurotrophic factor messenger RNA levels were observed as early as 30 min following the onset of behavioral seizures. The greatest increase (10-fold) occurred in the dentate granule cell layer, while pyramidal layers CA1, CA3, and CA4 exhibited increases of two- to six-fold. Peak elevation of brain-derived neurotrophic factor messenger RNA in CA1 hippocampal region was evident at 4 h in CA3, and in the dentate granule layer at 30 min postseizure. Elevations persisted in the dentate and hilar regions to four days, while the increases in CA1 and CA3 returned to control levels by 16 h following seizure. Significant increases in brain-derived neurotrophic factor messenger RNA were also observed in the superficial layers of cortex (II and III) and in the piriform cortex which reached peak elevations by 8 h. No detectable changes were observed in the dorsomedial thalamus. Although histologically defined pyramidal and granule cell layers displayed relatively uniform increases in brain-derived neurotrophic factor messenger RNA in response to kainate, a closer examination of the labeling patterns using emulsion autoradiography revealed discrete areas of high grain densities overlapping uniform, moderate hybridization densities in the dentate granule cell layer and CA3, suggesting that the capacity to upregulate brain-derived neurotrophic factor messenger RNA in these regions may differ among individual neurons. In conclusion, our studies revealed that brain-derived neurotrophic factor messenger RNA induction in response to systemic kainate administration differs in hippocampal and cortical areas, in magnitude, time of onset and duration. The observed temperospatial pattern does not correspond in a simple way to increases in metabolic or electrical activity associated with seizures or neuronal vulnerability coincident with the seizures.
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PMID:Regionally specific and rapid increases in brain-derived neurotrophic factor messenger RNA in the adult rat brain following seizures induced by systemic administration of kainic acid. 164 Nov 25

Kindling, induced by repeated subconvulsive electrical or chemical stimulations leads to progressive and permanent amplification of seizure activity, culminating in generalized seizures. We report that kindling induced by electrical stimulation in the ventral hippocampus leads to a marked and transient increase in mRNA for NGF and BDNF in the dentate gyrus, the parietal cortex, and the piriform cortex. BDNF mRNA increased also in the pyramidal layer of hippocampus and in the amygdaloid complex. No change was seen in the level of HDNF/NT-3 mRNA. The increased expression of NGF and BDNF mRNAs was not influenced by pretreatment with the NMDA receptor antagonist MK801, but was partially blocked by the quisqualate, AMPA receptor antagonist NBQX. The presumed subsequent increase of the trophic factors themselves may be important for kindling-associated plasticity in specific neuronal systems in the hippocampus, which could promote hyperexcitability and contribute to the development of epileptic syndromes.
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PMID:Increased levels of messenger RNAs for neurotrophic factors in the brain during kindling epileptogenesis. 182 4

We have localized brain-derived neurotrophic factor (BDNF) mRNA in rat brain and examined its regulation by seizure activity. In situ hybridization of BDNF 35S-cRNA most prominently labeled neurons in hippocampal stratum pyramidale and stratum granulosum, superficial olfactory cortex, pyramidal cell layers of neocortex, amygdala, claustrum, endopiriform nucleus, anterior olfactory nucleus, and ventromedial hypothalamus. Hybridization to BDNF mRNA was markedly increased in all of these regions after lesion-induced recurrent limbic seizures and within dentate gyrus granule cells following one electrically stimulated epileptiform afterdischarge. In contrast to seizure-elicited changes in nerve growth factor (NGF) mRNA expression, increases in BDNF mRNA occur in a greater number of different neuronal populations and develop several hours more rapidly in extrahippocampal loci. These results indicate that regulation by physiological activity may be an intrinsic property of this class of neurotrophic factor but that, in the recurrent seizure paradigm, different mechanisms mediate increased expression of mRNAs for BDNF and NGF outside hippocampus.
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PMID:BDNF mRNA expression is increased in adult rat forebrain after limbic seizures: temporal patterns of induction distinct from NGF. 205 88

The influence of chronic electroconvulsive seizure (ECS) or antidepressant drug treatments on expression of brain-derived neurotrophic factor (BDNF) and its receptor, trkB, was examined by in situ hybridization and Northern blot. In frontal cortex, acute ECS increased BDNF mRNA approximately twofold, an effect significantly augmented by a prior course of chronic ECS treatment (10 d). In the hippocampus, the influence of chronic ECS varied between the major subfields. In the dentate gyrus granule cell layer, chronic ECS decreased the acute induction of BDNF and trkB mRNA by approximately 50%, but prolonged their expression: levels remained elevated two- to threefold 18 hr later after the last chronic ECS treatment, but returned to control 18 hr after acute ECS. In CA3 and CA1 pyramidal cell layers, chronic ECS significantly elevated the acute induction of BDNF, and tended to prolong the expression of BDNF and trkB mRNA. A similar effect was observed in layer 2 of the piriform cortex, where chronic ECS significantly increased the acute induction and prolonged the expression of BDNF and trkB mRNA. Chronic (21 d), but not acute (1 d), administration of several different antidepressant drugs, including tranylcypromine, sertraline, desipramine, or mianserin, significantly increased BDNF mRNA and all but mianserin increased trkB mRNA in hippocampus. In contrast, chronic administration of nonantidepressant psychotropic drugs, including morphine, cocaine, or haloperidol, did not increase levels of BDNF mRNA. Furthermore, chronic administration of ECS or antidepressant drugs completely blocked the down-regulation of BDNF mRNA in the hippocampus in response to restraint stress. The enhanced induction and prolonged expression of BDNF in response to chronic ECS and antidepressant drug treatments could promote neuronal survival, and protect neurons from the damaging effects of stress.
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PMID:Regulation of BDNF and trkB mRNA in rat brain by chronic electroconvulsive seizure and antidepressant drug treatments. 747 5

Reports of glucocorticoid effects on neurotrophin expression suggest that adrenal hormones may contribute to the pattern of changes in the expression of these factors induced by neuronal activity and seizures. To examine this possibility, the present study evaluated the influence of adrenalectomy on basal expression and seizure-induced alterations in levels of nerve growth factor, brain-derived neurotrophic factor, and neurotrophin-3 messenger RNAs in hippocampus, entorhinal cortex, and superficial neocortex. For determination of hormone effects on basal expression, adult male rats were adrenalectomized and killed 10-14 days later with paired adrenal-intact controls. For studies of adrenal steroid involvement in expression following seizure, adrenalectomized and adrenal-intact rats received a seizure-producing lesion of the dentate gyrus hilus. Changes in neurotrophin messenger RNA content were assessed by quantitative in situ hybridization. Adrenalectomy alone had no significant effect on brain-derived neurotrophic factor messenger RNA content but did result in cell-specific decreases in nerve growth factor and neurotrophin-3 messenger RNAs. Nerve growth factor messenger RNA levels were reduced in hippocampal stratum granulosum, entorhinal cortex, and neocortex but not in cells of the hippocampal molecular layers or hilus. With adrenalectomy, neurotrophin-3 messenger RNA was virtually eliminated from CA2 stratum pyramidale, partially reduced in stratum granulosum, but unaffected in neurons of the hippocampal molecular layers or entorhinal cortex. These effects were partially reversed by corticosterone (2 mg/l) supplement to the drinking saline. In experimental-seizure rats, adrenalectomy did not alter the direction or basic pattern of seizure-induced changes in neurotrophin expression but did change the time courses and magnitudes of these effects. In all areas measured, brain-derived neurotrophic factor messenger RNA content was more greatly and persistently elevated by seizure in adrenalectomized as compared with adrenal-intact rats. In contrast, with adrenalectomy seizures induced smaller increases in nerve growth factor messenger RNA content. Adrenalectomy augmented the decrease in neurotrophin-3 messenger RNA induced by seizure in hippocampus but not in entorhinal cortex. These results demonstrate that adrenal hormones play a major role in the regulation of basal nerve growth factor and neurotrophin-3 messenger RNA expression by specific populations of forebrain neurons. Moreover, the adrenal steroids have opposite effects on activity-dependent changes in brain-derived neurotrophic factor and nerve growth factor messenger RNA levels but are not required for the basic pattern of changes in neurotrophin messenger RNA expression elicited by recurrent seizures.
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PMID:Cell-specific modulation of basal and seizure-induced neurotrophin expression by adrenalectomy. 747 46

The present study investigates the expression of a tyrosine kinase receptor (trkB), its specific ligands brain-derived neurotrophic factor (BDNF) and neurotrophin-4 (NT-4) mRNAs in the striatum after seizures. The result showed an increase of trkB mRNA expression, both with and without tyrosine kinase domain, in the caudate-putamen and nucleus accumbens, but not in the globus pallidus. This increase peaked 3 h after treatment, and returned to normal levels by 12 h. The BDNF and NT-4 mRNAs showed no change at any time. In conclusion, the widespread and massive trkB mRNA induction after abnormal neuronal activity suggests local trophic support for this receptor, and a potential role in basal ganglia diseases involving non-dopaminergic components.
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PMID:Up-regulation of trkB mRNA expression in the rat striatum after seizures. 747 33

Contingent tolerance to the anticonvulsant effects of carbamazepine on amygdala kindled seizures develops when the drug is repeatedly given prior to but not after the electrical stimulation. Such tolerance can be reversed by kindling the rats for several days without drug or even by continuing to give the drug but after each seizure has occurred. Contingent tolerance can be slowed by reducing the electrical stimulus intensity and by chronic continuous (as opposed to repeated paired) drug administration. Contingent cross-tolerance has been demonstrated from carbamazepine to PK11195 (a drug active at peripheral-type benzodiazepine receptors) and valproate, but not to clonazepam and diazepam (two drugs active at central-type benzodiazepine receptors) or phenytoin. Endogenous physiological changes occur in conjunction with contingent tolerance, exemplified by the decrease in seizure threshold that returns to normal upon reversal of tolerance. We suggest that contingent tolerance is associated with a loss of seizure-induced adaptations, since many biochemical changes that occur following seizures (or in non-tolerant animals given drug after seizures) are not observed in tolerant animals. These include a loss of seizure-induced up-regulation of GABAA receptors and a loss of increases in mRNA expression for corticotropin-releasing-factor (CRF), thyrotropin-releasing-hormone (TRH), neuropeptide Y (NPY), glucocorticoid receptors and brain-derived neurotrophic factor (BDNF). Thus, several putative seizure-induced anticonvulsant adaptations, such as increases in GABAA receptors and TRH and NPY mRNA fail to occur in tolerant animals. These findings are consistent with the novel observations that, paradoxically, seizures themselves appear to facilitate the anticonvulsant effects of carbamazepine or diazepam on amygdala kindled seizures. That is, animals given a 'vacation' from seizures show a decreased response to these agents, a phenomenon we have called the 'time-off seizure' effect. Thus, seizures are postulated to induce adaptive changes that influence seizure thresholds and potentiate the anticonvulsant effects of exogenously administered drugs such as carbamazepine and diazepam. Taken together, these data suggest that seizures are associated with endogenous adaptations lasting days to weeks and that a selective failure of some of these to occur during contingent drug administration may underlie the development of contingent tolerance. These observations suggest tht endogenous illness-related mechanisms may participate both in the therapeutic responses of some agents and that their failure to occur could relate to loss of drug efficacy via tolerance; these processes may reveal new potential targets for therapeutic intervention.
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PMID:Contingent tolerance to the anticonvulsant effects of carbamazepine: relationship to loss of endogenous adaptive mechanisms. 755 Mar 63

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