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)

Anti-N-methyl-D-aspartate receptor (NMDAR) encephalitis is a new category of treatment-responsive encephalitis associated with "anti-NMDAR antibodies", which are antibodies to the NR1/NR2 heteromers of NMDAR. The antibodies are detected in the CSF/serum of young women with ovarian teratoma, who typically develop schizophrenia-like psychiatric symptoms, usually preceded by fever, headache, or viral infection-like illness. After reaching the peak of psychosis, most patients developed seizures followed by an unresponsive/catatonic state, decreased level of consciousness, central hypoventilation frequently requiring mechanical ventilation, orofacial-limb dyskinesias, and autonomic symptoms. Brain MRI is usually unremarkable but focal enhancement or medial temporal lobe abnormalities can be observed. The CSF reveals nonspecific changes. EEG often reveals diffuse delta slowing without paroxysmal discharges, despite frequent bouts of seizures. This is a highly characteristic syndrome evolving in 5 stages, namely, the prodromal phase, psychotic phase, unresponsive phase, hyperkinetic phase, and gradual recovery phase. The hyperkinetic phase is the most prolonged and crucial. This disorder is usually severe and can be fatal, but it is potentially reversible. Once patients overcome the hyperkinetic phase, gradual improvement is expected with in months and full recovery can also be expected over 3 or more years. Ovarian teratoma-associated limbic encephalitis (OTLE) was first reported in 1997 when this syndrome was reported independently in 1 Japanese girl and 1 woman, both of whom improved following tumor resection. In 2005, Dalmau and his research group first demonstrated antibodies to novel neuronal cell membrane antigens in 4 women with OTLE in a non-permeabilized culture of hippocampal neurons. Two years later, they identified conformal extracellular epitopes present in the NR1/NR2B heteromers of NMDAR, which are expressed in the hippocampus/forebrain. The target extracellular epitopes are not detectable by immunoblotting, and should not be confused with the linear epitopes of NR2B subunits (also known as epsilon2). The antibodies disappear with clinical improvement, suggesting their pathogenic role. Autopsies revealed IgG deposits in the hippocampus, extensive microgliosis, rare T-cell infiltrates, and neuronal degeneration predominantly involving, but not restricted to, the hippocampus. The nervous tissues of the tumors exhibit not only strong expression of the NR2B subunits but also reactivity with the patients' antibodies. The pathogenesis remains unknown; however, this disorder is considered to be an antibody-mediated encephalitis. Based on the current NMDAR hypofunction hypothesis of schizophrenia, we speculate that the antibodies may cause inhibition rather than stimulation of NMDARs in presynaptic GABAergic interneurons, causing a reduction in GABA release. This results in disinhibition of postsynaptic glutamatergic transmission, excessive release of glutamate in the prefrontal/subcortical structures, and glutamate and dopamine dysregulation that might contribute to development of schizophrenia-like psychosis and bizarre dyskinesias. The antibodies were initially found only in young women with teratoma in the ovaries. However, recent studies show that this disorder can occur even in the absence of teratoma in up to 35% of patients, and even boys and adult men had been affected. Although recovery occurs without the need for tumor removal, the severity and extended duration of symptoms support tumor removal. Combined therapy including tumor resection and immunotherapy is recommended. In this review, we also discuss the relationship between anti-NMDAR encephalitis and related disorders, including acute diffuse lymphocytic meningoencephalitis and acute juvenile female non-herpetic encephalitis (AJFNHE).
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PMID:[Anti-nMDA receptor encephalitis--clinical manifestations and pathophysiology]. 1880 39

When epileptiform activity is acutely induced in vitro, transient partial blockade of N-methyl-d-aspartic acid (NMDA) receptor-mediated calcium influx leads to selective long-term depotentiation of the synapses involved in the epileptic activity as well as a reduction in the probability of further epileptiform activity. If such selective depotentiation occurred within foci of epileptic activity in vivo, the corresponding long-term reduction in seizure probability could form the basis for a novel treatment of epilepsy. Continuous radiotelemetric EEG monitoring demonstrated modest acute anticonvulsant effects but no long-term reductions in the probability of spontaneous seizures after transient partial blockade of NMDA receptors (NMDAR) during ictal and interictal activity in the kainate animal model of chronic epilepsy. In vitro, depotentiation was induced when NMDAR were partially blocked during epileptiform activity in hippocampal slices from control animals, but not in slices from chronically epileptic rats. However in slices from epileptic animals, depotentiation during epileptiform activity was induced by partial block of NMDAR using NR2B- but not NR2A-selective antagonists. These results suggest that chronic epileptic activity is associated with changes in NMDA receptor-mediated signaling that is reflected in the pharmacology of activity- and NMDA receptor-dependent depotentiation.
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PMID:NMDA receptor-mediated long-term alterations in epileptiform activity in experimental chronic epilepsy. 1893 Jul 47

Overactivation of NMDA-Rs may mediate excitotoxic cell death associated with epileptic seizures, and hypoxic-ischemic conditions. We assessed whether repeated subcutaneous administration of l-glutamate to neonatal rats affects the subunit composition of NMDA-Rs. Accordingly, cortical and hippocampal tissue from 14-day-old rats was analyzed by Western blotting and RT-PCR to quantify the protein and mRNA expression of different NMDA-R subunits. In addition, tissue sections were Nissl stained to assess the cell damage in this tissue. Early exposure of neonatal rats to L-glutamate differentially affects the expression of mRNA transcripts for NMDA-R subunits in the cerebral cortex and hippocampus. In the cerebral cortex, a decrease in NR2B subunit mRNA expression was observed, as well as a loss of NR1 and NR2A protein. By contrast, neonatal L-glutamate administration augmented the transcripts encoding the NR1, NR2B, and NR2C subunits in the hippocampal formation. The expression of mRNA encoding the NR2A subunit was not affected by neonatal L-glutamate administration in either of the brain regions examined. This differential expression of NMDA-R subunits following neonatal exposure to L-glutamate may represent an adaptive response of the glutamate receptors to overactivation in order to reduce the effect of high L-glutamate during the early period of life when the animal is more vulnerable to excitotoxicity.
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PMID:Changes in hippocampal NMDA-R subunit composition induced by exposure of neonatal rats to L-glutamate. 1893 Aug 1

Interleukin-1beta (IL-1beta) is overproduced in human and rodent epileptogenic tissue and it exacerbates seizures upon brain application in rodents. Moreover, pharmacological prevention of IL-1beta endogenous synthesis, or IL-1 receptor blockade, mediates powerful anticonvulsive actions indicating a significant role of this cytokine in ictogenesis. The molecular mechanisms of the proconvulsive actions of IL-1beta are not known. We show here that EEG seizures induced by intrahippocampal injection of kainic acid in C57BL6 adult mice were increased by 2-fold on average by pre-exposure to IL-1beta and this effect was blocked by 3-O-methylsphingomyelin (3-O-MS), a selective inhibitor of the ceramide-producing enzyme sphingomyelinase. C2-ceramide, a cell permeable analog of ceramide, mimicked IL-1beta action suggesting that ceramide may be the second messenger of the proconvulsive effect of IL-1beta. The seizure exacerbating effects of either IL-1beta or C2-ceramide were dependent on activation of the Src family of tyrosine kinases since they were prevented by CGP76030, an inhibitor of this enzyme family. The proconvulsive IL-1beta effect was associated with increased Tyr(418) phosphorylation of Src-family of kinases indicative of its activation, and Tyr(1472) phosphorylation of one of its substrate, the NR2B subunit of the N-methyl-d-aspartate receptor, which were prevented by 3-O-MS and CGP76030. Finally, the proconvulsive effect of IL-1beta was blocked by ifenprodil, a selective NR2B receptor antagonist. These results indicate that the proconvulsive actions of IL-1beta depend on the activation of a sphingomyelinase- and Src-family of kinases-dependent pathway in the hippocampus which leads to the phosphorylation of the NR2B subunit, thus highlighting a novel, non-transcriptional mechanism underlying seizure exacerbation in inflammatory conditions.
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PMID:A novel non-transcriptional pathway mediates the proconvulsive effects of interleukin-1beta. 1895 71

The seizure-induced molecular and functional alterations of glutamatergic transmission in the hippocampus have been investigated. Daily repeated epileptic seizures were induced for 12 days by intraperitoneal administration of 4-aminopyridine (4-AP; 4.5 mg/kg) in adult Wistar rats. The seizure symptoms were evaluated on the Racine's scale. One day after the last injection, the brains were removed for in vitro electrophysiological experiments and immunohistochemical analysis. The glutamate receptor subunits NR1, NR2A, NR2B, GluR1, GluR1(flop), GluR2, and KA-2 were studied using the histoblotting method. The semi-quantitative analysis of subunit immunoreactivities in hippocampal layers was performed with densitometry. In the hippocampus, increase of GluR1, GluR1(flop) and NR2B immunostaining was observed in most of the areas and layers. The significant decrease of GluR2 staining intensity was observed in the CA1 and dentate gyrus. Calcium permeability of hippocampal neurons was tested by a cobalt uptake assay in hippocampal slices. The uptake of cobalt increased in the CA1 area and dentate gyrus, but not in the CA3 region following 4-AP treatment. Effects of AMPA and NMDA (N-methyl-d-aspartate) glutamate receptor antagonists (1-(4-aminophenyl)-4-methyl-7,8-methylenedioxy-5H-2,3-benzodiazepine hydrochloride (GYKI 52466) and D-APV respectively) were measured in hippocampal slices using extracellular recording. Analysis of the population spikes revealed the reduced effectiveness of the AMPA receptor antagonist GYKI 52466, while the effect of the NMDA receptor antagonist d-(2R)-amino-5-phosphonovaleric acid was similar to controls. The results demonstrated that repeated convulsions induced structural and functional changes in AMPA receptor-mediated transmission, while NMDA and kainate receptor systems displayed only alterations in receptor subunit composition.
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PMID:Modification of ionotropic glutamate receptor-mediated processes in the rat hippocampus following repeated, brief seizures. 1915 79

Cyclin-dependent kinase 5 (Cdk5) is a proline-directed serine/threonine kinase that has been implicated in learning, synaptic plasticity, neurotransmission, and numerous neurological disorders. We previously showed that conditional loss of Cdk5 in adult mice enhanced hippocampal learning and plasticity via modulation of calpain-mediated N-methyl-D-aspartic acid receptor (NMDAR) degradation. In the present study, we characterize the enhanced synaptic plasticity and examine the effects of long-term Cdk5 loss on hippocampal excitability in adult mice. Field excitatory post-synaptic potentials (fEPSPs) from the Schaffer collateral CA1 subregion of the hippocampus (SC/CA1) reveal that loss of Cdk5 altered theta burst topography and enhanced post-tetanic potentiation. Since Cdk5 governs NMDAR NR2B subunit levels, we investigated the effects of long-term Cdk5 knockout on hippocampal neuronal excitability by measuring NMDAR-mediated fEPSP magnitudes and population-spike thresholds. Long-term loss of Cdk5 led to increased Mg(2+)-sensitive potentials and a lower threshold for epileptiform activity and seizures. Biochemical analyses were performed to better understand the role of Cdk5 in seizures. Induced-seizures in wild-type animals led to elevated amounts of p25, the Cdk5-activating cofactor. Long-term, but not acute, loss of Cdk5 led to decreased p25 levels, suggesting that Cdk5/p25 may be activated as a homeostatic mechanism to attenuate epileptiform activity. These findings indicate that Cdk5 regulates synaptic plasticity, controls neuronal and behavioral stimulus-induced excitability and may be a novel pharmacological target for cognitive and anticonvulsant therapies.
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PMID:Regulation of hippocampal and behavioral excitability by cyclin-dependent kinase 5. 1952 98

Tosyl-polyamine derivatives such as N-{4-[4-(guanidinobutylamino)-butylamino]butyl}-4-methylbenzenesulfonamide trihydrochroride (TsHSPMG) have been found to strongly inhibit macroscopic currents through heteromeric N-methyl-D-aspartate (NMDA) receptors (NR1/NR2A, NR1/NR2B) and Ca(2+)-permeable alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (homomeric glutamate receptor 1) receptors expressed in Xenopus laevis oocytes on voltage-clamp recording. In the present study, it was found that the inhibition of NMDA receptor activity induced by tosyl-polyamine derivatives was voltage-dependent. Some mutations located in the intracellular region of the channel pore, such as NR1 E621Q and NR2B W607L, reduced the inhibition by tosyl-polyamine derivatives, suggesting that tosyl-polyamine derivatives penetrate deeply into the channel pore of NMDA receptors. The neuroprotective effects of tosyl-polyamine derivatives against cell injury caused by NMDA were investigated in cultured rat hippocampal neurons. Addition of 1 microM TsHSPMG to medium ablated the neurotoxicity induced by NMDA, and a similar effect was observed with 30 microM memantine. The neuroprotective effects of tosyl-polyamine derivatives on NMDA-induced seizures in mice were also assayed. Intracerebroventricular or intravenous injection of TsHSPMG (0.1 or 0.5 mg/kg) decreased the seizures induced by intraperitoneal injection of NMDA in mice. These findings indicate that tosyl-polyamine derivatives exhibit neuroprotective effects not only in primary cultured neurons but also in mice.
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PMID:Neuroprotection by tosyl-polyamine derivatives through the inhibition of ionotropic glutamate receptors. 1964 42

Ifenprodil is a novel NMDA receptor antagonist that selectively inhibits receptors containing the NR2B subunit. Lindane, a widely used pesticide and scabicide, evokes seizures mainly through the blockade of the gamma-aminobutyric acid type A receptor complex. The aim of this study was to determine the effects of ifenprodil on the behavioral and electroencephalographic (EEG) manifestations of seizures in lindane-treated rats. Adult male Wistar rats with three electrodes implanted into the skull were treated intraperitoneally (i.p.) with lindane 8 mg/kg and observed for seizure behavior and EEG during the next 30 min. Seizure behavior was assessed by incidence, severity (determined by a descriptive rating scale ranging from 0 to 4) and duration of latency. Increasing doses of ifenprodil (5, 10, 20 mg/kg, i.p.) or vehicle were injected 30 min prior to lindane administration. Ifenprodil decreased the incidence and severity of lindane seizures and prolonged the latency to seizures in a dose-dependent manner. 20 mg/kg of ifenprodil significantly decreased the incidence (p < 0.05) and severity (p < 0.05) of seizures when compared to the vehicle treatment. Latency to seizures was significantly prolonged by 10 and 20 mg/kg of ifenprodil. The estimated ED(50) value of ifenprodil was 15.53 (5.48-15.20) mg/kg. The lindane-induced bursts of spiking activity in EEG were not completely suppressed by the applied doses of ifenprodil. These results indicate that ifenprodil alleviates behavioral seizures and modifies EEG characteristics of lindane seizures in rats, thus showing the involvement of NMDA receptors containing the NR2B subunit in the mechanisms of lindane convulsions.
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PMID:Influence of NR2B-selective NMDA antagonist on lindane-induced seizures in rats. 1977 59

Seizures early in life cause long-term behavioral modifications, namely long-term memory deficits in experimental animals. Since caffeine and adenosine A(2A) receptor (A(2A)R) antagonists prevent memory deficits in adult animals, we now investigated if they also prevented the long-term memory deficits caused by a convulsive period early in life. Administration of kainate (KA, 2 mg/kg) to 7-days-old (P7) rats caused a single period of self-extinguishable convulsions which lead to a poorer memory performance in the Y-maze only when rats were older than 90 days, without modification of locomotion or anxiety-like behavior in the elevated-plus maze. In accordance with the relationship between synaptotoxicity and memory dysfunction, the hippocampus of these adult rats treated with kainate at P7 displayed a lower density of synaptic proteins such as SNAP-25 and syntaxin (but not synaptophysin), as well as vesicular glutamate transporters type 1 (but not vesicular GABA transporters), with no changes in PSD-95, NMDA receptor subunits (NR1, NR2A, NR2B) or alpha-amino-3-hydroxy-5-methylisoxazole-4-propionate receptor subunits (GluR1, GluR2) compared with controls. Caffeine (1 g/L) or the A(2A)R antagonist, KW6002 (3 mg/kg) applied in the drinking water from P21 onwards, prevented these memory deficits in P90 rats treated with KA at P7, as well as the accompanying synaptotoxicity. These results show that a single convulsive episode in early life causes a delayed memory deficit in adulthood accompanied by a glutamatergic synaptotoxicity that was prevented by caffeine or adenosine A(2A)R antagonists.
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PMID:Caffeine and an adenosine A(2A) receptor antagonist prevent memory impairment and synaptotoxicity in adult rats triggered by a convulsive episode in early life. 1987 34

Alterations in N-methyl-d-aspartate receptor (NMDAR) protein levels or subcellular localization in brain after chronic ethanol exposure may contribute to withdrawal-associated seizures and neurotoxicity. We have investigated synaptic localization of NMDARs in cultured hippocampal pyramidal neurons after prolonged (7 days) exposure to, and acute withdrawal from, 80 mM ethanol using fluorescence immunocytochemistry techniques. After chronic ethanol exposure, there was a significant increase in the clustering of NR1 and NR2B subunits and their colocalization with the synaptic proteins synaptophysin and postsynaptic density protein 95, respectively. There was also increased expression of NR1 variants containing the C2' cassette after chronic ethanol exposure. The ethanol-induced synaptic clustering and colocalization were rapidly reversed within 4 h after ethanol withdrawal. Surface labeling of NR2B subunits suggested that this rapid reversal involved lateral receptor movement to extrasynaptic sites rather than internalization of receptors. Receptor removal from the synapse during ethanol withdrawal was associated with changes in the phosphorylation state of NR2B Ser1480, controlled by the protein kinase CK2. The redistribution of NMDAR to synapses produced by long-term ethanol exposure, as well as the rapid removal during withdrawal, may not only affect neuronal withdrawal hyperexcitability but also may sensitize the system to subsequent synaptic plasticity.
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PMID:Phosphorylation regulates removal of synaptic N-methyl-D-aspartate receptors after withdrawal from chronic ethanol exposure. 2000 87


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