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)

The hypothesis that kappa-opioid system activity may in part mediate convulsions exhibited during ethanol withdrawal was tested by exposing Withdrawal Seizure-Prone (WSP) and Withdrawal Seizure-Resistant (WSR) mice to chronic ethanol. Whole brain was harvested for RNA isolation and prodynorphin mRNA steady-state levels in whole brain were examined using Northern blot analysis. The data revealed significantly increased levels of prodynorphin mRNA expression in mice susceptible to ethanol withdrawal convulsions after withdrawal, with no corresponding increase in prodynorphin steady-state levels in mice resistant to ethanol withdrawal convulsions. These findings were not due to basal differences in prodynorphin expression between the WSP and WSR mice. To verify that the differences observed were not due to an ethanol-induced global alteration in gene transcription, mRNA levels of the housekeeping gene glyceraldehyde-3-phosphate dehydrogenase were measured. Glyceraldehyde-3-phosphate dehydrogenase expression was unchanged following both chronic exposure to ethanol and chronic exposure followed by withdrawal. These results extend our understanding of prodynorphin's role in generalized seizure activity to include ethanol withdrawal-induced convulsions. Our findings suggest that prodynorphin expression is modulated during ethanol withdrawal convulsions, or alternatively, prodynorphin may mediate the severity of ethanol withdrawal convulsions.
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PMID:Elevated prodynorphin expression associated with ethanol withdrawal convulsions. 1087 98

Valproic acid (VPA), used to treat bipolar mood disorder and seizures, also inhibits histone deacetylase (HDAC). Here, we found that VPA and other HDAC inhibitors, butyrate and trichostatin A, robustly protected mature cerebellar granule cell cultures from excitotoxicity induced by SYM 2081 ((2S, 4R)-4-methylglutamate), an inhibitor of excitatory amino-acid transporters and an agonist of low-affinity kainate receptors. These neuroprotective effects required protracted treatment and were correlated with enhanced acetylated histone levels, indicating HDAC inhibition. SYM-induced excitotoxicity was blocked by MK-801 ((5R,10S)-(+)-5-methyl-10,11-dihydro-5H-dibenzo[a,d]cyclohepten-5,10-imine hydrogen maleate), supporting that the toxicity was largely N-methyl-D-aspartate receptor dependent. SYM excitotoxicity had apoptotic characteristics and was prevented by a caspase inhibitor. SYM-induced apoptosis was associated with a rapid and robust nuclear accumulation of glyceraldehyde-3-phosphate dehydrogenase (GAPDH), a housekeeping gene previously shown to be proapoptotic. VPA pretreatment suppressed SYM 2081-induced GAPDH nuclear accumulation, concurrent with its neuroprotective effects. Chromatin immunoprecipitation (ChIP) revealed that GAPDH is copresent with acetylated histone H3, including Lys9-acetylated histone, and that VPA treatment caused a time-dependent decrease in the levels of nuclear GAPDH with a concomitant increase in acetylated histones in the ChIP complex. Our results strongly suggest that VPA protects neurons from excitotoxicity through inhibition of HDAC activity and that this protective effect may involve suppression of excitotoxicity-induced accumulation of GAPDH protein in the nucleus.
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PMID:Valproic acid inhibits histone deacetylase activity and suppresses excitotoxicity-induced GAPDH nuclear accumulation and apoptotic death in neurons. 1528 98

ATP-sensitive K+ (KATP) channels couple the intracellular metabolic state to electrical activity, which is important in the control of neuronal excitability and seizure propagation. In this study, we investigated the changes in the gene and protein expression of KATP channel subunits in the brain of picrotoxin (PTX)-kindled rats, which were daily administered with a subconvulsant dose of PTX for 20 days. At 14 days after the last administration of PTX, kindled rats were retreated with PTX and killed by decapitation at 12 h, 1 and 3 days, as well as retreated with vehicle and killed at 0 h after starting the retreatment. The abundance of Kir6.1, Kir6.2, SUR1 and SUR2A/B mRNAs was evaluated by reverse transcription polymerase chain reaction (RT-PCR) using endogenous gene glyceraldehyde-3-phosphate dehydrogenase (GAPDH) as an internal control, and the level of Kir6.2 and SUR1 proteins was measured by Western blot. At 0 h, the brain showed decreasing expression of various subunit mRNAs, with the exception of the SUR2A mRNA. In contrast, from 12 h to 3 days, the amount of various subunit mRNAs was up-regulated dynamically, but SUR2A of which was not changed significantly both from cortical and hippocampal samples. Furthermore, we demonstrated that the levels of Kir6.1, Kir6.2, SUR1 and SUR2B mRNAs at 12 h and 3 days (excepting SUR1 at 3 days) from hippocampal samples, as well as Kir6.1 at 1 day and SUR1 at 3 days from cortical samples, were significantly higher than that detected at 0 h. In addition, low levels of Kir6.2 and SUR1 proteins were observed both from cortical and hippocampal samples at 0 h and also, from 12 h to 3 days, a marked up-modulation of Kir6.2 and SUR1 protein expressions especially from hippocampal samples was found. These results suggest that the PTX-induced changes in the KATP channels may play a key role in the induction and maintenance of kindling and the PTX-induced seizures might be important for the acute changes of KATP channels observed in kindled rat brain.
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PMID:Changes in the gene and protein expression of K(ATP) channel subunits in the hippocampus of rats subjected to picrotoxin-induced kindling. 1533 20

TCH-346, an anti-apoptotic compound, is under development by Novartis for the potential treatment of Parkinson's disease (PD) and motor neuron disease [271447,342937]. By September 1999, phase I clinical trials for PD were underway [342937]. The compound was discovered in a screen for molecules with both norepinephrine uptake and MAO inhibiting properties but, although it had anti-apoptotic properties, it did not inhibit MAOA or MAO-B [333136,332004]. The compound increases lifespan in the progressive motorneuropathy mouse model and prevents ischemia in models of ischemia and seizure [288893]. In vivo, it shows neurorescuing and anti-apoptotic properties in PC12 cells and cerebellar granule cells, among others, at concentrations of 0.1 pM to 10 microM, suggesting that its action might prove potentially useful against Alzheimer's and/or Parkinson's disease [332004]. The compound has also shown neurorescuing properties in rat pups after axotomy, rat hippocampal CA1 neurons after transient ischemia/hypoxia and mouse nigral dopaminergic (DA) neurons after treatment with MPTP in doses ranging between 0.0003 and 0.1 mg/kg po or sc, depending on the model [333136]. Data presented by the University of Nijmengen and the Free University of Amsterdam show that TCH-346 improves the behavioral and enzymatic outcome in the rat 6-OH-dopamine model of Parkinson's disease. TCH-346 (0.0014 mg/kg sc bid) prevented abnormal stepping (open field test) and prevented increases in fore and hind-paw retraction time. TCH-346 also improved acquisition in the Morris water maze task and, at doses between 0.0014 and 0.14 mg/kg, prevented reduction in tyrosine hydroxylase immunoreactivity [345259]. Affinity binding studies with TCH-346 showed that GAPDH is the target [294902,283200]. Differential display RT-PCR also showed that protein-isoaspartyl-methyl transferase is induced by the drug [283200].
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PMID:TCH-346 (Novartis). 1610 Jun 86

A reduction in GABAergic neurotransmission has been put forward as a pathophysiological mechanism for human epilepsy. However, in slices of human epileptogenic neocortex, GABAergic inhibition can be clearly demonstrated. In this article we present data showing an increase in the functional lability of GABAergic inhibition in epileptogenic tissue compared with nonepileptogenic human tissue. We have previously shown that the glycolytic enzyme GAPDH is the kinase involved in the glycolysis-dependent endogenous phosphorylation of the alpha1-subunit of GABA(A) receptor, a mechanism necessary for maintaining GABA(A) function. In human epileptogenic cortex obtained during curative surgery of patients with partial seizures, we demonstrate an intrinsic deficiency of GABA(A) receptor endogenous phosphorylation resulting in an increased lability of GABAergic currents in neurons isolated from this tissue when compared with neurons from nonepileptogenic human tissue. This feature was not related to a reduction in the number of GABA(A) receptor alpha1-subunits in the epileptogenic tissue as measured by [(3)H]flunitrazepam photoaffinity labeling. Maintaining the receptor in a phosphorylated state either by favoring the endogenous phosphorylation or by inhibiting a membrane-associated phosphatase is needed to sustain GABA(A) receptor responses in epileptogenic cortex. The increased functional lability induced by the deficiency in phosphorylation can account for transient GABAergic disinhibition favoring seizure initiation and propagation. These findings imply new therapeutic approaches and suggest a functional link to the regional cerebral glucose hypometabolism observed in patients with partial epilepsy, because the dysfunctional GABAergic mechanism depends on the locally produced glycolytic ATP.
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PMID:Dysfunction of GABAA receptor glycolysis-dependent modulation in human partial epilepsy. 1736 Jun 68

We have previously described a new endogenous phosphorylation mechanism that maintains ionotropic gamma-aminobutyric acid receptor (GABAAR) function and have shown that the kinase involved is the glycolytic enzyme glyceraldehyde-3-phosphate dehydrogenase (GAPDH). This enzyme is closely associated with the receptor and phosphorylates the alpha1 subunit of the receptor. In a wealth of studies, a reduction in GABAergic neurotransmission has been suggested as a pathophysiological mechanism for human epilepsy. In this paper, we present evidence showing both reduced efficacy of this glycolysis-dependent GABAAR phosphorylation mechanism and of GABAergic inhibition in epileptogenic cortical tissue samples obtained during curative surgery of patients with partial seizures, as compared to non-epileptogenic human cortical tissue. This feature is not due to a reduction in the density of GABAAR alpha1 subunits in the epileptogenic tissue as evidenced by photoaffinity labeling. Maintaining the receptor in a phosphorylated state either by favoring the endogenous phosphorylation or by inhibiting a membrane-bound phosphatase sustains the GABAAR responses in the human epileptogenic cortex. The deficiency in endogenous phosphorylation and the associated decreased GABAAR function can account for transient failures of GABAergic inhibition and may favor seizure initiation and propagation. These findings suggest a functional link between epileptic pathology and the regional cerebral glucose hypometabolism observed in patients with partial epilepsies, since the dysfunction of the GABAergic mechanism is dependent on locally produced glycolytic ATP. They also point to new targets for developing molecules active in drug-resistant epilepsies.
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PMID:A key glycolytic enzyme plays a dual role in GABAergic neurotransmission and in human epilepsy. 1772 22

Group II metabotropic glutamate (mGlu II) receptors subtype 2 and 3 (mGlu2 and mGlu3) are subtle regulators of neuronal excitability and synaptic plasticity in the hippocampus. In recent years, researchers have investigated the potential neuroprotective and anticonvulsant effects of compounds acting on mGlu II receptors. However, abnormal expression and function of mGlu2 and mGlu3 have been reported in temporal lobe epilepsy, a phenomena that may limit the therapeutic effectiveness of these potentially new antiepileptic drugs. Here, we investigated seizure-induced changes in mGlu2 and mGlu3 mRNA following pilocarpine-inducted status epilepticus (SE) and subsequent epileptogenesis. Relative changes in gene expression were assessed by comparative analysis of quantitative real-time PCR (qrtPCR) by the delta-delta CT method. Pilocarpine-treated and control rats were sacrificed at different periods (24 h, 10 days, one month and more than two months) following SE. Total RNA was isolated from microdissected dentate gyrus and processed for RT-PCR and qrtPCR using glyceraldehyde-3-phosphate dehydrogenase (GAPDH) as an endogenous control gene. Analysis of relative quantification (RQ) ratios of mGlu2 and mGlu3 mRNA expression revealed a significant down-regulation of both targets at 24 h after SE. Gene expression partially recovered at 10 days following SE reaching control levels at one month after SE. Two month after SE, mGlu2 mRNA expression was significantly down-regulated to approximately 41% of control expression whereas mGlu3 mRNA was comparable to control levels. Our data indicate that mGlu2 and mGlu3 expression is dynamically down-regulated or selectively enhanced during critical periods of epileptogenesis. Seizure-induced differential dysregulation of mGlu2 and mGlu3 receptors may affect the availability of these molecular targets for therapeutic compounds in epilepsy.
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PMID:Differential changes in mGlu2 and mGlu3 gene expression following pilocarpine-induced status epilepticus: a comparative real-time PCR analysis. 1858 69

The function of the gamma-aminobutyric acid type A receptor (GABA(A)R) is maintained by endogenous phosphorylation. We have shown that the corresponding kinase is the glycolytic enzyme glyceraldehyde-3-phosphate dehydrogenase (GAPDH), using the locally produced glycolytic ATP. In addition, using cerebral tissue obtained during curative surgery for epilepsy, we showed that both the endogenous phosphorylation and the GABA(A)R function are significantly reduced in the "epileptogenic" cerebral cortex when compared to "control" tissue. This dysfunction likely contributes to seizure generation and/or transition from the interictal to the ictal state. Glucose utilization is decreased in the epileptogenic cortex of patients with partial epilepsy in the interictal state, but the relationship to the disorder remains unclear. We propose that this hypometabolism is related to the deficiency in the endogenous phosphorylation of GABA(A)R and the resulting greater lability of GABAergic inhibition. Several lines of evidences indeed suggest that GABAergic inhibition is costly in terms of metabolic consumption. The deficiency of this glycolysis-dependent mechanism may thus link epileptogenicity to glucose hypometabolism. The antiepileptic effect of ketogenic diets may be mediated by the subsequent rise in the NADH/NAD(+) index, which favors GABA(A)R endogenous phosphorylation and should contribute to restoration of GABAergic inhibition in the epileptogenic zone.
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PMID:Lability of GABAA receptor function in human partial epilepsy: possible relationship to hypometabolism. 1904 98

Reference genes are often used to normalize expression of data from real-time quantitative reverse transcription-polymerase chain reaction (RT-qPCR), and only a validation of their stability during a given experimental paradigm leads to reliable interpretations. The present study was thus designed to validate potential reference genes in a mouse model of mesiotemporal lobe epilepsy (MTLE) with focal seizures after unilateral intrahippocampal injection of kainate (KA). Ipsilateral and contralateral hippocampi were removed during nonconvulsive status epilepticus (5 hr), epileptogenesis (7 days), and the chronic period of recurrent focal seizures (21 days). Naive animals were equally studied. The stability of eight potential reference genes (hypoxanthine phosphoribosyltransferase, Hprt1; peptidylprolyl isomerase A, Ppia; TATA box binding protein, Tbp; beta-actin, Actb; acidic ribosomal phosphoprotein P0, Arbp; glyceraldehyde-3-phosphate dehydrogenase, Gapdh; ribosomal RNA 18S, 18S rRNA; and glucuronidase beta, Gusb) were determined using geNorm and NormFinder software. The first five (Hprt1, Ppia, Tbp, Actb, and Arbp) were found to be stable across the different phases of the disease and appeared adequate for normalizing RT-qPCR data in this model. This was in contrast to the other three (18S rRNA, Gapdh, and Gusb), which showed unstable expressions and should be avoided. The analysis of KA-induced changes in the expression of glial fibrillary acidic protein (Gfap) gene resulted in various relative expressions or even a completely different pattern when unstable reference genes were used. These results highlight the absolute need to validate the reference genes for a correct interpretation of mRNA quantification.
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PMID:Selection of reference genes for real-time quantitative reverse transcription-polymerase chain reaction in hippocampal structure in a murine model of temporal lobe epilepsy with focal seizures. 1993 10

We have shown that the glycolytic enzyme glyceraldehyde-3-phosphate dehydrogenase (GAPDH) is the kinase involved in the endogenous phosphorylation of the alpha1 subunit of the gamma-aminobutyric acid (GABA)(A) receptor (GABA(A)R), maintaining GABA(A)-R function. GABA(A)R endogenous phosphorylation is opposed by one or several atypical phosphatases. We have shown in addition, using cerebral tissue obtained during epilepsy surgery and control tissue from patients undergoing brain tumor surgery, that both endogenous phosphorylation and GABA(A)R function are significantly reduced in the "epileptogenic" cerebral cortex when compared to control. This dysfunction likely contributes to seizure generation and/or transition from the interictal to the ictal state. The therapeutic challenge is to alleviate the endogenous phosphorylation deficiency of GABA(A)R in the epileptogenic cortical tissue, either through activating the endogenous kinase activity, or inhibiting dephosphorylation of the alpha1 subunit. Following the first trail, we have shown that spermine (the most effective polyamine) increases the GAPDH kinase activity on GABA(A)R and that subsequently such modulation potentiates its function as assessed by rundown studies on isolated neurons. Following the second trail, we have developed methods to identify these atypical membrane-bound phosphatases. Their activities were detected using two synthetic phosphopeptides corresponding to the alpha1 regions of phosphorylation by GAPDH. After purification, the active fractions are submitted to proteomic analysis by nanoLC-Maldi-TOF/TOF for protein identification. Two candidate proteins have been identified, which will be used as targets for high-throughput screening in order to develop original antiepileptic molecules.
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PMID:New therapeutic targets to develop molecules active in drug-resistant epilepsies. 2061 99


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