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

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

Human serum albumin-like immunoreactivity was detected by the peroxidase-antiperoxidase method in histological sections of the hippocampus from epileptic and control brains obtained on routine autopsies. In the hippocampi of epileptic patients immunoreactive astrocytes were found, the number of which was increasing with the severity of the manifest convulsions. The highest numbers of immunoreactive astrocytes were observed in those patients who died in status epilepticus. Hippocampi from control patients with no neurologic disorders in life were devoid of immunoreactive astrocytes. The results are discussed in terms of the breakdown of the blood-brain barrier during epileptic seizures.
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PMID:Immunohistochemical localization of extravasated serum albumin in the hippocampus of human subjects with partial and generalized epilepsies and epileptiform convulsions. 651 99

Status epilepticus was induced in rats by injecting a combination of dibutyryl-cAMP (db-cAMP) and ethylenediaminetetraacetic acid (EDTA) into the amygdala (AM), and the effect of phenytoin (PHT), entrapped in liposomes (PHT-L) and given intravenously at 40 mg/kg, on the spiking activity of the AM epileptogenic focus was examined. Electroencephalograms were recorded from the db-cAMP/EDTA-injected AM and the bilateral sensorimotor cortices. One dose of PHT-L, given 30 min after intra-AM db-cAMP, produced immediate and transient seizure suppression, but did not suppress the sequential spiking activity, which lasted for more than 5 h. In contrast, two doses of PHT-L, given 30 and 60 min after intra-AM db-cAMP/EDTA, produced delayed and local suppression of AM discharges, and immediate and transient seizure suppression was also observed. The AM discharges began to be suppressed about 100 min after the second injection of PHT-L injection, with no overt change occurring in cortical spiking activity. This was followed by total seizure suppression about 170 min after the second PHT-L injection. This effect was not observed after one or two injections of PHT alone. When horseradish peroxidase (HRP), to which the blood-brain barrier is impermeable, was entrapped in liposomes (HRP-L) and given intravenously 30 min after intra-AM db-cAMP/EDTA, an accumulation of HRP was found in the db-cAMP/EDTA-injected AM in 2 of the 5 animals tested. With 2 doses of HRP-L given 30 and 60 min after intra-AM db-cAMP/EDTA, the local augmentation of HRP in the AM was found in all 5 of the 5 animals tested. Our findings suggest that: (1) the AM epileptogenic focus created by db-cAMP/EDTA has a high affinity for liposomes, and this factor participates in the local suppression of AM discharges by PHT-L, and (2) two injections of PHT-L are required for the AM to gather an effective amount of PHT-L.
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PMID:Liposome-entrapped phenytoin locally suppresses amygdaloid epileptogenic focus created by db-cAMP/EDTA in rats. 871 31

Neuropeptide-Y (NPY) is expressed by granule cells and mossy fibres of the hippocampal dentate gyrus during experimental temporal lobe epilepsy (TLE). This expression may represent an endogenous damping mechanism since NPY has been shown to block seizure-like events following high-frequency stimulation in hippocampal slices. The pilocarpine (PILO) model of epilepsy is characterized by an acute period of status epilepticus followed by spontaneous recurrent seizures and related brain damage. We report peroxidase-antiperoxidase immunostaining for NPY in several brain regions in this model. PILO-injected animals exhibited NPY immunoreactivity in the region of the mossy fibre terminals, in the dentate gyrus inner molecular layer and, in a few cases, within presumed granule cells. NPY immunoreactivity was also dramatically changed in the entorhinal cortex, amygdala and sensorimotor areas. In addition, PILO injected animals exhibited a reduction in the number of NPY-immunoreactive interneurons compared with controls. The results demonstrate that changes in NPY expression, including expression in the granule cells and mossy fibres and the loss of vulnerable NPY neurons, are present in the PILO model of TLE. However, the significance of this changed synthesis of NPY remains to be determined.
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PMID:Neuropeptide-Y immunoreactivity in the pilocarpine model of temporal lobe epilepsy. 930 28

A previously healthy 32-year-old man visited our clinic with a 5-week history of involuntary movement. Examination demonstrated continuous myoclonic jerks in the left elbow. Two days later, he developed generalized convulsion. Electroencephalography demonstrated small spikes over the right central region. Thus, we made a diagnosis of epilepsia partialis continua (EPC) with a secondary generalization. On admission, serum electrolytes, glucose and ceruloplasmin levels, and amino acid analysis were unremarkable. HIV serology was negative. Anticardiolipin, anti-MPO ANCA, and anti-Hu antibodies were negative. The cerebrospinal fluid (CSF) showed 151/microl lymphocytes and 23/microl polymorphs, 70 mg/dl of glucose, and 61 mg/dl of protein. Autoantibodies against the glutamate receptor subunits epsilon-2 and delta-2 were detected in the serum and CSF. Cranial MRI was unremarkable. Treatment with acyclovir and high-dose methylprednisolone failed to halt the jerks. Two weeks after admission, he developed status epilepticus, which necessitated general anesthesia. Intravenous immunoglobulin infusion gave no beneficial effects. Two months after the onset of the status epilepticus, his convulsions were controlled with zonisamide, clobazam, and carbamazepine. While he had no motor dysfunctions, he had loss of spontaneity and memory impairment. This report suggests that EPC might be the initial symptom of subacute encephalitis with a possible autoimmune mechanism.
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PMID:[Subacute encephalitis with anti-glutamate receptor antibodies presented with epilepsia partialis continua]. 1618 Jul 13

The present study sought to evaluate the neuroprotective effects of apocynin, an NADPH oxidase assembly inhibitor, on seizure-induced neuronal death. Apocynin, also known as acetovanillone, is a natural organic compound isolated from the root of Canadian hemp (Apocynum cannabium). It has been extensively studied to determine its disease-fighting capabilities and application in several brain insults, such as traumatic brain injury and stroke. Here we tested the hypothesis that post-treatment of apocynin may prevent seizure-induced neuronal death by suppression of NADPH oxidase-mediated superoxide production. Temporal lobe epilepsy (TLE) was induced by intraperitoneal injection of pilocarpine (25mg/kg) in male rats. Apocynin (30mg/kg, i.p.) was injected into the intraperitoneal space two hours after seizure onset. A second injection was performed 24h after seizure. To test whether apocynin inhibits NADPH oxidase activation-induced reactive oxygen species (ROS) production, dihydroethidium (dHEt, 5mg/kg, i.p.) was injected before onset of seizure and ROS production was detected five hours after seizure onset. Neuronal oxidative injury (4HNE), neuronal death (Fluoro Jade-B), blood brain barrier (BBB) disruption (IgG leak), neurotrophil infiltration (MPO) and microglia activation (CD11b) in the hippocampus was evaluated at three days after status epilepticus (SE). Pilocarpine-induced seizure increased p47 immunofluorescence in the plasma membrane of hippocampal neurons at 12h post-insult and apocynin treatment prevented this increase. The present study found that apocynin post-treatment decreased ROS production and lipid peroxidation after seizure and decreased the number of degenerating hippocampal neurons. Apocynin also reduced seizure-induced BBB disruption, neurotrophil infiltration and microglial activation. Taken together, the present results suggest that inhibition of NADPH oxidase by apocynin may have a high therapeutic potential to reduce seizure-induced neuronal dysfunction.
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PMID:Post-treatment of an NADPH oxidase inhibitor prevents seizure-induced neuronal death. 2331 82

MicroRNAs (miRNAs) are reported to involve in pathogenesis of temporal lobe epilepsy (TLE). miR-142-5p is found increased in TLE, but its role remains unknown. In the study, we established a mouse model of status epilepticus (SE) with pilocarpine and a cell model of TLE. Quantitative real-time PCR revealed an up-regulation of miR-142-5p and down-regulation of mitochondrial Rho 1 (Miro1) in the mouse mode of SE. Administration of miR-142-5p antagomirs via intracerebroventricular injection attenuated pilocarpine-induced SE and hippocampal damage, and alleviated mitochondrial dysfunction along with increased mitochondrial membrane potential and intracellular ATP and Ca (2+) levels. The expression of mitochondrial trafficking kinesin protein (Trak) 1 and Trak2 was up-regulated by inhibiting miR-142-5p. Antagomirs targeting miR-142-5p suppressed pilocarpine-induced oxidative stress as evidenced by decreased ROS generation and MPO activity, and increased SOD activity. Silencing miR-142-5p reduced neuronal death in pilocarpine-treated hippocampus and magnesium-free (MGF)-treated neurons. Inhibition of miR-142-5p decreased cytoplasmic Cytochrome C and increased mitochondrial Cytochrome C, reduced cleaved-caspase3 and Bax levels, and elevated Bcl2 in vivo and in vitro. Further, dual-luciferase assay verified Miro1 as a target of miR-142-5p, suggesting that miR-142-5p might function via targeting Mrio1. Depletion of Miro1 inhibited the protective effect of silencing miR-142-5p on hippocampal neurons in vitro. Taken together, down-regulation of miR-142-5p via targeting Miro1 inhibits neuronal death and mitochondrial dysfunction, and thus attenuates pilocarpine-induced SE, suggesting the potential involvement of miR-142-5p in the pathogenesis of TLE.
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PMID:Antagomirs targeting miR-142-5p attenuate pilocarpine-induced status epilepticus in mice. 3243 93