Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0038220 (status epilepticus)
 7,272 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The induction of the proto-oncogene c-fos has been used extensively to identify spatially distributed neural systems activated by seizures. The substantia nigra pars reticulata (SNpr) has been implicated as a critical structure in neural networks involved in the modulation of seizure expression, yet the SNpr has not been reported to express Fos following seizures induced in a variety of seizure paradigms. In this study we determined whether (1) the temporal characteristics of Fos induction in the SNpr were different than those of other brain areas following kindled seizures, (2) neurons in the SNpr possess the cellular machinery to express Fos, (3) Fos can be induced in SNpr by direct electrical stimulation, and (4) Fos expression is induced in the SNpr following kainate or pilocarpine-induced status epilepticus. Results indicate that Fos is not induced in SNpr at any time point (1-12 h) after kindled seizures, and that serum response factor, a constitutively expressed nuclear protein necessary for Fos expression, is present in SNpr neurons. Results further indicate that Fos expression in the SNpr is induced following either direct electrical stimulation or pilocarpine status, but not status elicited by kainate. We conclude that, in so far as the SNpr represents a critical structure for modulating seizure expression, seizure activity does not represent a sufficient stimulus to induce Fos in SNpr neurons. Further, the neural networks defined by Fos expression following seizure may be incomplete, and should be interpreted conservatively.
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PMID:The substantia nigra pars reticulata, seizures and Fos expression. 771 58

The expression of the c-fos proto-oncogene, as estimated by immunohistochemistry of the FOS nuclear protein, was studied in both focal and generalized seizures induced in rats by systemic administration of pilocarpine. Focal seizures, as indicated by the occurrence of stereotyped oral movements, chewing and sniffing, were evoked by either a subconvulsant dose of pilocarpine (200 mg/kg) or the association of a convulsant dose of pilocarpine (400 mg/kg) with SCH 23390, a selective D-1 dopamine receptor antagonist. This seizure pattern resulted in FOS accumulation in certain limbic areas, namely, the piriform cortex, amygdala, and olfactory tubercle. On the other hand, in rats developing generalized seizures, accumulation of FOS was also found in hippocampus, cingulate cortex, frontal cortex, striatum, accumbens, as well as in certain thalamic nuclei. Generalized seizures, including motor limbic seizures and status epilepticus, were induced by either a convulsant dose of pilocarpine (400 mg/kg) or a low dose of pilocarpine (15-200 mg/kg) combined with either lithium or the D-1 selective agonist SKF 38393. These findings indicate a close correlation between the sequence of behavioural alterations induced by pilocarpine and the proto-oncogene activation. The results provide the basis for mapping the areas of origin and the pathways of generalization of seizure activity. As shown by the effects of dopamine receptor agonists and antagonists, the process of generalization appears to be controlled by the dopamine system.
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PMID:Expression of c-fos protein in the experimental epilepsy induced by pilocarpine. 851 14

To investigate the progression of cellular injury in a model of hippocampal epileptogenesis, we used two histochemical methods reported to specifically label injured neurons, the Dark Neuron stain and Fluoro-Jade. Pilocarpine was administered systemically (380mg/kg i.p.) to induce status epilepticus. The duration of status epilepticus was controlled to last 1h by stopping it with diazepam (4mg/kg i.p.). The progression of cellular damage was quantified at six specific time points following the initial pilocarpine-induced insult: 3h, 6h, 12h, 24h, one week, and three weeks. To assess, in parallel, neuronal loss in specific hippocampal regions throughout epileptogenesis, the neuronal nuclear protein NeuN was used as a specific marker of neurons. Results revealed a different time-dependent progression of Dark Neuron and Fluoro-Jade labelling following status epilepticus. A significantly greater proportion of silver-impregnated cells labelled by the Dark Neuron stain was quantified in the stratum radiatum and stratum pyramidale of CA1 at the early time point of 3h compared with the proportion of Fluoro-Jade labelling in adjacent sections. In contrast, the maximal staining with Fluoro-Jade appeared at a later stage during epileptogenesis (between 24h and one week), with a significantly greater proportion of neurons labelled compared to the Dark Neuron stain in the stratum radiatum of CA1, stratum pyramidale of CA1, stratum radiatum of CA3 and the polymorphic layer of the dentate gyrus. Neurons from control animals were not significantly labelled by either of the two staining methods. Interestingly, the increase in Fluoro-Jade labelling corresponded in time to neuron loss. The two stains therefore appear to highlight separate processes of neuronal damage. This finding indicates that distinct cellular events take place at different stages of epileptogenesis, which may differ considerably from the permanent changes observed in chronically epileptic tissue.
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PMID:Differential progression of Dark Neuron and Fluoro-Jade labelling in the rat hippocampus following pilocarpine-induced status epilepticus. 1077 39

Electroconvulsive shock (ECS) seizures provide an animal model of electroconvulsive therapy (ECT) in humans. Recent evidence indicates that repeated ECS seizures can induce long-term structural and functional changes in the brain, similar to those found in other seizure models. We have examined the effects of ECS on neurogenesis in the dentate gyrus of the adult rat using bromodeoxyuridine (BrdU) immunohistochemistry, which identifies newly generated cells. Cells have also been labeled for neuronal nuclear protein (NeuN) to identify neurons. One month following eight ECS seizures, ECS-treated rats had approximately twice as many BrdU-positive cells as sham-treated controls. Eighty-eight percent of newly generated cells colabeled with NeuN in ECS-treated subjects, compared to 83% in sham-treated controls. These data suggest that there is a net increase in neurogenesis within the hippocampal dentate gyrus following ECS treatment. Similar increases have been reported following kindling and kainic acid- or pilocarpine-induced status epilepticus. Increased neurogenesis appears to be a general response to seizure activity and may play a role in the therapeutic effects of ECT.
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PMID:Neurogenesis in the dentate gyrus of the rat following electroconvulsive shock seizures. 1099 83

A large proportion of cells that proliferate in the adult dentate gyrus under normal conditions or in response to brain insults exhibit only short-term survival. Here, we sought to determine which cell death pathways are involved in the degeneration of newly formed neurons in the rat dentate gyrus following 2 h of electrically induced status epilepticus. We investigated the role of three families of cysteine proteases, caspases, calpains, and cathepsins, which can all participate in apoptotic cell death. Status epilepticus increased the number of bromodeoxyuridine (BrdU)-positive proliferated cells in the subgranular zone of the dentate gyrus. At the time of maximum cell proliferation, immunohistochemical analyses revealed protein expression of active caspase-cleaved poly (ADP-ribose) polymerase (PARP) in approximately 66% of the BrdU-positive cells, while none of them expressed cathepsin B or the 150-kDa calpain-produced fodrin breakdown product. To evaluate the importance of cysteine proteases in regulating survival of the newly formed neurons, we administered intracerebroventricular infusions of a caspase inhibitor cocktail (zVAD-fmk, zDEVD-fmk and zLEHD-fmk) over a 2-week period, sufficient to allow for neuronal differentiation, starting 1 week after the epileptic insult. Increased numbers of cells double-labelled with BrdU and neuron-specific nuclear protein (NeuN) marker were detected in the subgranular zone and granule cell layer of the caspase inhibitor-treated rats. Our data indicate that caspase-mediated cell death pathways are active in progenitor cell progeny generated by status epilepticus and compromise survival during neuronal differentiation.
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PMID:Caspase-mediated death of newly formed neurons in the adult rat dentate gyrus following status epilepticus. 1240 59

There is evidence that BDNF influences the birth of granule cells in the dentate gyrus, which is one of the few areas of the brain that demonstrates neurogenesis throughout life. However, studies to date have not examined this issue directly. To do so, we compared the effects of BDNF, phosphate-buffered saline (PBS), or bovine serum albumin (BSA) on neurogenesis after infusion into the hippocampus of the normal adult rat, using osmotic pumps that were implanted unilaterally in the dorsal hilus. BDNF, PBS, and BSA were infused for 2 weeks. The mitotic marker bromodeoxyuridine (BrdU) was administered twice daily during the 2-week infusion period. At least 1 month after infusion ended, brains were processed immunocytochemically using antibodies to BrdU, a neuronal nuclear protein (NeuN), or calbindin D28K (CaBP), which labels mature granule cells. Stereology was used to quantify BrdU-labeled cells in the dorsal hippocampus that were double-labeled with NeuN or CaBP. There was a statistically significant increase in BrdU(+)/NeuN(+) double-labeled cells in the granule cell layer after BDNF infusion relative to controls. The values for BrdU(+)/NeuN(+) cells were similar to BrdU(+)/CaBP(+) cells, indicating that most new neurons were likely to be granule cells. In addition, BrdU(+)/NeuN(+)-labeled cells developed in the hilar region after BDNF infusion, which have previously only been identified after severe continuous seizures (status epilepticus) and associated pathological changes. Remarkably, neurogenesis was also increased contralaterally, but BDNF did not appear to spread to the opposite hemisphere. Thus, infusion of BDNF to a local area can have widespread effects on hippocampal neurogenesis. The results demonstrate that BDNF administration to the dentate gyrus leads to increased neurogenesis of granule cells. They also show that ectopic granule cells develop after BDNF infusion, which suggests that ectopic migration is not necessarily confined to pathological conditions. These results are discussed in light of the evidence that BDNF increases neuronal activity in hippocampus. Thus, the mechanisms underlying neurogenesis following BDNF infusion could be due to altered activity as well as direct effects of BDNF itself, and this is relevant to studies of other growth factors because many of them have effects on neuronal excitability that are often not considered.
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PMID:Increased neurogenesis and the ectopic granule cells after intrahippocampal BDNF infusion in adult rats. 1637 58

Organophosphate (OP)-nerve agent poisoning may lead to prolonged epileptiform seizure activity, which can result in irreversible neuronal brain damage. A timely and effective control of seizures with pharmacological agents can minimize the secondary and long-term neuropathology that may result from this damage. Diazepam, the current anticonvulsant of choice in the management of OP poisoning, is associated with unwanted effects such as sedation, amnesia, cardio-respiratory depression, anticonvulsant tolerance, and dependence liabilities. In search for an efficacious and safer anticonvulsant benzodiazepine, we studied imidazenil, a potent anticonvulsant that is devoid of sedative action and has a low intrinsic efficacy at alpha1- but is a high efficacy positive allosteric modulator at alpha5-containing GABA(A) receptors. We compared the potency of a combination of 2 mg/kg, i.p. atropine with: (a) imidazenil 0.05-0.5 mg/kg i.p. or (b) equipotent anti-bicuculline doses of diazepam (0.5-5 mg/kg, i.p.), against diisopropyl fluorophosphate (DFP; 1.5 mg/kg, s.c.)-induced status epilepticus and its associated neuronal damage. The severity and frequency of seizure activities were determined by continuous radio telemetry recordings while the extent of neuronal damage and neuronal degeneration were assessed using the TUNEL-based cleaved DNA end-labeling technique or neuron-specific nuclear protein (NeuN)-immunolabeling and Fluoro-Jade B (FJB) staining, respectively. We report here that the combination of atropine and imidazenil is at least 10-fold more potent and longer lasting than the combination with diazepam at protecting rats from DFP-induced seizures and the associated neuronal damage or ongoing degeneration in the anterior cingulate cortex, CA1 hippocampus, and dentate gyrus. While 0.5 mg/kg imidazenil effectively attenuated DFP-induced neuronal damage and the ongoing neuronal degeneration in the anterior cingulate cortex, dentate gyrus, and CA1 hippocampus, 5 mg/kg or a higher dose of diazepam is required to produce similar protective effects. These finding suggests that imidazenil, a non-sedating anticonvulsant BZ ligand, is a more potent, effective, and safer drug than diazepam in protecting rats from DFP-induced seizures and the associated neuronal damage and/or ongoing neuronal degeneration.
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PMID:Imidazenil, a non-sedating anticonvulsant benzodiazepine, is more potent than diazepam in protecting against DFP-induced seizures and neuronal damage. 1911 86

Prolonged seizures activate members of the Bcl-2 homology domain 3-only sub-group of the Bcl-2 protein family, which are essential for initiation of apoptosis signaling. Bid is a potent pro-apoptotic Bcl-2 homology domain 3-only protein, which upon proteolytic activation translocates to mitochondria to promote activation of the Bax/Bak sub-group of the pro-apoptotic Bcl-2 family and thereby contributes to release of apoptogenic molecules, such as cytochrome c and possibly apoptosis-inducing factor (AIF). Bid-deficient mice have been reported to show reduced lesion volumes after ischemia and trauma in vivo but a causal role for Bid in the setting of seizure-induced neuronal death has not been investigated. In this study, we studied Bid activation following status epilepticus in mice and compared hippocampal damage between wild-type and Bid-deficient animals. Full-length Bid was detected in normal mouse hippocampus and the cleaved (activated) p15 fragment of Bid was detected shortly after status epilepticus. Bid-deficient mice underwent equivalent electrographic seizure responses during status epilepticus as wild-type animals. Hippocampal counts of degenerating neurons and surviving neuron-specific nuclear protein-positive cells were not significantly different between wild-type and Bid-deficient mice. Additionally, nuclear translocation of AIF was not reduced in Bid-deficient compared with wild-type animals subjected to status epilepticus. The present study demonstrates that AIF is not dependent on Bid for mitochondrial release and nuclear import in this model and that while Bid is cleaved during seizure-induced neuronal death, it may be functionally redundant or even not essential.
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PMID:BH3-only protein Bid is dispensable for seizure-induced neuronal death and the associated nuclear accumulation of apoptosis-inducing factor. 2064 70

The aims of this study were to characterize the spatial distribution of neurodegeneration after status epilepticus (SE) induced by either systemic (S) or intrahippocampal (H) injection of pilocarpine (PILO), two models of temporal lobe epilepsy (TLE), using FluoroJade (FJ) histochemistry, and to evaluate the kinetics of FJ staining in the H-PILO model. Therefore, we measured the severity of behavioral seizures during both types of SE and also evaluated the FJ staining pattern at 12, 24, and 168 h (7days) after the H-PILO insult. We found that the amount of FJ-positive (FJ+) area was greater in SE induced by S-PILO as compared to SE induced by H-PILO. After SE induced by H-PILO, we found more FJ+ cells in the hilus of the dentate gyrus (DG) at 12 h, in CA3 at 24 h, and in CA1 at 168 h. We found also no correlation between seizure severity and the number of FJ+ cells in the hippocampus. Co-localization studies of FJ+ cells with either neuronal-specific nuclear protein (NeuN) or glial fibrillary acidic protein (GFAP) labeling 24 h after H-PILO demonstrated spatially selective neurodegeneration. Double labeling with FJ and parvalbumin (PV) showed both FJ+/PV+ and FJ+/PV- cells in hippocampus and entorhinal cortex, among other areas. The current data indicate that FJ+ areas are differentially distributed in the two TLE models and that these areas are greater in the S-PILO than in the H-PILO model. There is also a selective kinetics of FJ+ cells in the hippocampus after SE induced by H-PILO, with no association with the severity of seizures, probably as a consequence of the extra-hippocampal damage. These data point to SE induced by H-PILO as a low-mortality model of TLE, with regional spatial and temporal patterns of FJ staining.
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PMID:Comparative neuroanatomical and temporal characterization of FluoroJade-positive neurodegeneration after status epilepticus induced by systemic and intrahippocampal pilocarpine in Wistar rats. 2114 76

Status epilepticus (SE) induced by pilocarpine or kainate is associated with yet not systemically investigated astrocytic and vascular injuries. To investigate their possible association with neuronal damage, the changes in glial fibrillary acidic protein (GFAP), laminin and neuron-specific nuclear protein (NeuN) immunoreactivities were analyzed in rats treated with pilocarpine (380 mg/kg) or kainate (15 mg/kg), and receiving diazepam (20mg/kg) after 10 min of SE. A different group of rats was injected with endothelin-1 (ET-1) in the caudate putamen to reproduce the changes in GFAP and laminin immunoreactivities associated with ischemia. Focal loss of GFAP immunostaining was accompanied by increased laminin immunoreactivity in blood vessels, in all the examined groups. Regression analysis revealed a significant (P<0.01) relationship between astrocytic lesion and increased laminin immunoreactivity in the piriform cortex (Pir) of both pilocarpine (R(2)=0.88) and kainate (R(2)=0.94) groups of treatment. A significant relationship (P<0.01; R(2)=0.81) was also present in the cornu Ammonis 3 (CA3) hippocampal region of pilocarpine-treated rats. At variance, neuronal and glial lesions were significantly related (P<0.05, R(2)=0.74) only in the substantia nigra of pilocarpine-treated rats. The ratio between areas of GFAP and laminin changes of immunoreactivity in the ET-1 group was similar to those found in pilocarpine- and kainate-treated rats in specific brain regions, such as the hippocampal CA3 subfield, Pir and the anterior olfactory nucleus. The amygdala and submedius thalamic nucleus in the pilocarpine group, and the perirhinal and entorhinal cortices in the kainate group, also presented ischemic-like changes. These results indicate that laminin immunoreactivity is upregulated in the basal lamina of blood vessels after SE induced by pilocarpine or kainate. This phenomenon is significantly associated with lesions involving more glial than neuronal cells, in specific cerebral regions.
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PMID:Increased perivascular laminin predicts damage to astrocytes in CA3 and piriform cortex following chemoconvulsive treatments. 2260 36


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