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)

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

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 mechanisms by which stress and anti-depressants exert opposite effects on the course of clinical depression are not known. However, potential candidates might include neurotrophic factors that regulate the development, plasticity, and survival of neurons. To explore this hypothesis, we examined the effects of stress and antidepressants on neurotrophin expression in the locus coeruleus (LC), which modulates many of the behavioral and physiological responses to stress and has been implicated in mood disorders. Using in situ hybridization, we demonstrate that neurotrophin 3 (NT-3) is expressed in noradrenergic neurons of the LC. Recurrent, but not acute, immobilization stress increased NT-3 mRNA levels in the LC. In contrast, chronic treatment with antidepressants decreased NT-3 mRNA levels. The effect occurred in response to antidepressants that blocked norepinephrine uptake, whereas serotonin-specific reuptake inhibitors did not alter NT-3 levels. Electroconvulsive seizures also decreased NT-3 expression in the LC as well as the hippocampus. Ntrk3 (neurotrophic tyrosine kinase receptor type 3; formerly TrkC), the receptor for NT-3, is expressed in the LC, but its mRNA levels did not change with stress or antidepressant treatments. Because, NT-3 is known to be trophic for LC neurons, our results raise the possibility that some of the effects of stress and antidepressants on LC function and plasticity could be mediated through NT-3. Moreover, the coexpression of NT-3 and its receptor in the LC suggests the potential for autocrine mechanisms of action.
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PMID:Stress and antidepressants differentially regulate neurotrophin 3 mRNA expression in the locus coeruleus. 756 18

Kindling, an animal model of epilepsy wherein seizures are induced by subcortical electrical stimulation, results in the upregulation of neurotrophin mRNA and protein in the adult rat forebrain and causes mossy fiber sprouting in the hippocampus. Intraventricular infusion of a synthetic peptide mimic of a nerve growth factor domain that interferes with the binding of neurotrophins to their receptors resulted in significant retardation of kindling and inhibition of mossy fiber sprouting. These findings suggest a critical role for neurotrophins in both kindling and kindling-induced synaptic reorganization.
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PMID:A nerve growth factor peptide retards seizure development and inhibits neuronal sprouting in a rat model of epilepsy. 756 61

Electroconvulsive therapy is used in the treatment of affective disorders and schizophrenia and experimental electroconvulsive shock may serve as an animal model for this treatment. The aim of this study was to investigate a possible role for neurotrophins in the mechanism of action of experimental electroconvulsive shock and thus in clinical electroconvulsive therapy. The effect of electroconvulsive shock on levels of messenger RNAs encoding the neurotrophin brain-derived neurotrophic factor and the receptor trkB in rat hippocampus was determined by in situ hybridization with RNA probes 1, 3, 9 and 27 h following the shock. Brain-derived neurotrophic factor messenger RNA levels were increased at 1, 3 and 9 h following the shock and normalized after 27 h. Granule cells of the dentate gyrus showed a more rapid response as compared to hilar cells and pyramidal cells of CA1. Total trkB messenger RNA levels, including the transcripts for both the truncated and full length trkB receptor protein (gp95trkB and gp145trkB, respectively), showed a pattern of increase very similar to that of the brain-derived neurotrophic factor messenger RNA. However, using a probe selective for the full length (gp145trkB) trkB messenger RNA, we determined a delayed pattern of activation with significant increase only at 3 and 9 h after the shock. In hippocampus total trkB messenger RNA was found to consist of approximately one-quarter of mRNA encoding gp145trkB and three-quarters encoding gp95trkB as revealed by RNAase protection. While brain-derived neurotrophic factor and the truncated trkB messenger RNAs appear to increase with a similar pattern, suggesting a similar mechanism of activation by electroconvulsive shock, full length receptor trkB messenger RNA appears to increase with a delayed pattern suggesting a separate mechanism of activation. Electroconvulsive shock-induced seizures seem to include activation of a brain neurotrophin known to be important for neuronal plasticity.
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PMID:Spatiotemporal selective effects on brain-derived neurotrophic factor and trkB messenger RNA in rat hippocampus by electroconvulsive shock. 760 68

The expression of neuropeptides and neurotrophic factors is altered in the hippocampus after seizure induction in rats. Because the increase in brain-derived neurotrophic factor (BDNF) and nerve growth factor (NGF) mRNAs precede changes in neuropeptide expression after seizure, it is possible that BDNF and NGF mediate subsequent alterations in peptide expression. To test this hypothesis directly, BDNF or NGF was infused into the hippocampus and cortex of adult rats. To ascertain the regional specificity of any observed effects of neurotrophin administration on neuropeptide expression, infusions into the striatum were also studied. To control for specificity, vehicle was also infused into the same sites. Peptide and mRNA alterations were assessed by Northern analysis, immunohistochemistry and radioimmunoassay. BDNF produced elevations of peptide and mRNA for neuropeptide Y and cholecystokinin in hippocampus and cortex, and somatostatin in cortex. BDNF increased mRNAs for neuropeptide Y, cholecystokinin, substance P and dynorphin in striatum. In contrast, BDNF decreased dynorphin peptide and mRNA in hippocampus. NGF's effects were limited to small mRNA increases, without corresponding changes in peptide levels, for neuropeptide Y in hippocampus and striatum, substance P in cortex and cholecystokinin in striatum. The distinct and limited effects of NGF infusion on neuropeptide expression demonstrate that BDNF's effects are not non-specific results of protein infusion into the brain. These findings indicate that BDNF may play a regionally specific role in modulating neuropeptide expression in the normal brain as well as in various pathophysiological states.
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PMID:Regulation of neuropeptides in adult rat forebrain by the neurotrophins BDNF and NGF. 798 76

Glial cell line-derived neurotrophic factor (GDNF) is a novel member of the transforming growth factor-beta superfamily with potent trophic effects on dopamine neurons. Kainate-induced epileptic seizures have been shown to induce gene expression of trophic factors, particularly members of neurotrophin or fibroblast growth factor families, in the hippocampus. In this study, we examined the effects of kainate (12 mg/kg, i.p.)-induced epileptic seizures on the expression of the novel neurotrophic factor GDNF in the hippocampus. While GDNF messenger RNA was not detected during development or in normal adult rats in the hippocampus, kainate-induced epileptic seizures markedly increased GDNF messenger RNA in scattered neurons in the dentate granule layer 3 h after injection. Six hours after kainate almost all dentate granule cells and expressed GDNF messenger RNA. The increase in GDNF messenger RNA in the dentate granule layer returned almost to control levels 24 h after kainate; however, there was still expression of GDNF messenger RNA in the hilus/CA4 and also in pyramidal neurons in areas CA1-CA3. We conclude that GDNF messenger RNA is regulated, in part, via glutamate-mediated excitation and may play a role in long-lasting structural and/or functional reorganization in the hippocampal formation.
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PMID:Neurons of the hippocampal formation express glial cell line-derived neurotrophic factor messenger RNA in response to kainate-induced excitation. 805 21

Levels of messenger RNA for nerve growth factor, brain-derived neurotrophic factor, neurotrophin-3, and the tyrosine kinase receptors trkA, trkB and trkC have been studied using in situ hybridization in the rat brain 2 h and four weeks after kindling-induced seizures. Epileptiform activity evoked by hippocampal stimulation and exceeding 70 s lead to a concomitant and transient increase of brain- derived neurotrophic factor, nerve growth factor, trkB and trkC messenger RNA expression in dentate granule cells after both focal and generalized seizures. Brain-derived neurotrophic factor messenger RNA levels were also increased bilaterally in the CA1-CA3 regions, amygdala and the piriform, entorhinal, perirhinal, retrosplenial and temporal cortices after generalized seizures. The magnitude of the increases was similar throughout the development of kindling and in the fully kindled brain. No changes of trkA messenger RNA were observed. In amygdalar kindling, elevated brain-derived neurotrophic factor messenger RNA levels developed more rapidly in the amygdala-piriform cortex than after stimulation in the hippocampus but changes in the hippocampal formation were only seen in few animals. Intraventricular 6-hydroxydopamine or a bilateral fimbria-fornix lesion did not alter basal expression or seizure-evoked changes in messenger RNA levels for neurotrophins or trk receptors but increased the number of animals exhibiting elevated levels after the first stimulation, probably due to a prolongation of seizure activity. Both in sham-operated and fimbria-fornix-lesioned rats seizure activity caused a marked reduction of neurotrophin-3 messenger RNA levels in dentate granule cells. The results indicate that activation of the brain-derived neurotrophic factor gene, at least in dentate granule cells, is an "all-or-none" type of response and dependent on the duration but not the severity of seizures or the stage of kindling epileptogenesis. Changes in brain-derived neurotrophic factor, nerve growth factor, neurotrophin-3 and trkB and trkC were observed concomitantly in the dentate gyrus, which suggests that seizure activity sets in motion a cascade of genomic events possibly mediated via a common mechanism. Since altered messenger RNA levels outside hippocampus were detected only for brain-derived neurotrophic factor, neurotrophin and trk gene expression in these regions seems to be regulated differently.
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PMID:Regulation of neurotrophin and trkA, trkB and trkC tyrosine kinase receptor messenger RNA expression in kindling. 838 86

Development of kindling and mossy fiber sprouting, and changes of gene expression were studied after 40 seizures produced during about 3 h by electrical stimulation every 5 min in the ventral hippocampus. As assessed by 5 test stimulations, enhanced responsiveness was present already after 6-24 h but from 1 week post-seizure increased gradually up to 4 weeks without additional stimuli. Sprouting of mossy fibers in the dentate gyrus was demonstrated only at 4 weeks with Timm's staining. In situ hybridization showed a transient increase (maximum at 2 h) of brain-derived neurotrophic factor (BDNF), nerve growth factor (NGF), TrkB and TrkC mRNA levels and reduction (maximum at 12-24 h) of neurotrophin-3 (NT-3) mRNA expression in dentate granule cells after the seizures. In addition, BDNF mRNA levels were elevated in CA1 and CA3 regions, amygdala and piriform cortex. Marked increases of mRNA for growth-associated protein (GAP-43), with maximum expression at 12-24 h, were observed in dentate granule cells and in amygdala-piriform cortex. Dynorphin mRNA levels showed biphasic changes in dentate granule cells with an increase at 2 h followed by a decrease at 24 h. No long-term alterations of gene expression were observed. These findings indicate that increased responsiveness develops rapidly after recurring seizures but that the kindled state is reached gradually in about 4 weeks. Mossy fiber sprouting occurs in parallel to epileptogenesis and may play a causative role. Short-term changes of neurotrophin and Trk, GAP-43 and dynorphin mRNA levels and the assumed alterations of the corresponding proteins could trigger structural rearrangements underlying kindling but might also contribute to the initial increase of seizure susceptibility.
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PMID:Delayed kindling development after rapidly recurring seizures: relation to mossy fiber sprouting and neurotrophin, GAP-43 and dynorphin gene expression. 870 3

Levels of brain-derived neurotrophic factor (BDNF) and neurotrophin-3 (NT3) mRNA expression were measured in a rodent model of traumatic brain injury (TBI) following unilateral injury to the cerebral cortex. To obtain reliable data on the co-expression of neurotrophin genes, adjacent coronal sections from the same rat brains were hybridized in situ with BDNF and NT3 cRNA probes. BDNF mRNA increased at 1,3, and 5 hr after unilateral cortical injury in the cortex ipsilateral to the injury site and bilaterally in the dorsal hippocampus. NT3 mRNA did not change significantly following injury. Our results suggest that TBI produces rapid increases in BDNF mRNA expression in rat brain without changes in NT3 mRNA expression, a finding which differs from studies of ischemia and seizures. It is possible that increased levels of BDNF mRNA rather than NT3 are important components of pathophysiological responses to TBI.
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PMID:Increased expression of brain-derived neurotrophic factor but not neurotrophin-3 mRNA in rat brain after cortical impact injury. 872 24

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