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)

A small dose (0.5-1.0 micrograms) of cholera toxin injected into rat hippocampus induced an epileptic focus which discharged intermittently for 7-10 days. Epileptic discharges lasting from 70 ms to 2 min were recorded in vivo through implanted electrodes. The longer bursts could generalize to the neocortex, and occasionally caused motor seizures. The epileptic bursts reached a maximum 3-4 days after injection, and then declined to occasional brief interictal discharges by 9 days. Postmortem histology revealed no evidence of gross pathology or neuronal loss. Hippocampal slices prepared from rats < 8 days after injection of cholera toxin, and maintained in vitro, generated brief spontaneous and evoked epileptic bursts, usually lasting < 1 s. Spontaneous bursts always started in subregion CA3c, and propagated through the pyramidal layer at a mean of 0.18 m/s. Intracellular recordings from CA3 pyramidal layer cells always revealed simultaneous paroxysmal depolarization shifts during epileptic bursts. Epileptic activity, both in vivo and in vitro, required the whole toxin molecule. Injections of either the B subunit or the vehicle solution were not epileptogenic. Therefore binding of the toxin to neuronal membranes, which is mediated by the B subunit, was not sufficient for the epileptogenic effects of cholera toxin. This suggested that the activation of Gs which requires the whole molecule, was necessary. Gs activation is known to stimulate cyclic AMP production, but forskolin, which directly stimulates adenyl cyclase, failed to produce epileptic activity, even though it depressed action potential accommodation and afterhyperpolarizations (AHPs). While further work is required to resolve the basic mechanisms of cholera toxin induced epileptic foci, we propose that they require the activation of Gs, which can enhance Ca2+ currents and modify excitatory synaptic transmission directly. Cyclic AMP induced changes in these properties cannot be excluded. However, cyclic AMP induced reductions in action potential accommodation and AHPs, which are found in cholera toxin foci, may contribute to, but are not sufficient for, epileptogenesis. Cholera toxin differs from the commonly used epileptic agents in that its main action is on G proteins and second messenger systems, rather than on synaptic transmission directly. Furthermore it has a prolonged time course, and does not cause gross pathology. These features combine to make it a distinctive model for epilepsy and neuronal synchronization.
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PMID:Epileptic focus induced by intrahippocampal cholera toxin in rat: time course and properties in vivo and in vitro. 826 12

Effects of the cyclic AMP agonists 8-(4-chlorophenylthio)-adenosine 3':5' cyclic monophosphate (CPT-cAMP), dibutyryl cyclic AMP (dbcAMP) and forskolin were studied on extracellular field potentials in rat neocortex slices in vitro. CPT-cAMP and forskolin produced a prolonged enhancement of epileptiform activity resulting from removal of Mg2+ from the bathing medium. DbcAMP had no apparent effect except at high concentrations (1 mM), when it reduced bursting activity. Field potentials observed following electrical stimulation of the corpus callosum in the presence of Mg2+ were enhanced by CPT-cAMP and dbcAMP; however forskolin was without effect. Intracellular recording techniques demonstrated a transient excitatory influence of dbcAMP. The results indicate a role for cyclic AMP in seizure mechanisms.
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PMID:Cyclic AMP analogues increase excitability and enhance epileptiform activity in rat neocortex in vitro. 839 51

Previous studies in our laboratory have shown that L-carnitine suppresses seizures and alterations of brain energy metabolism in mice caused by hyperammonemia. The present study was done to exclude the effects of seizures on brain energy metabolism. When sublethal dose of ammonium acetate (12 mmol/kg b.wt.) was injected to mice, all mice survived without developing seizures, while clear increase of brain ammonia and alterations of brain energy metabolites were seen. In L-carnitine-treated animals, the levels of ammonia, AMP and lactate were lower and those of ATP and phosphocreatine were higher than in untreated animals. Treatment with D-carnitine also preserved the phosphocreatine level. This indicates that the improvement of brain energy metabolism by L-carnitine in hyperammonemia is not simply a result of the suppression of seizures, and that the "physiological" function of carnitine may not be the sole mechanism underlying this effect.
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PMID:Effects of L and D-carnitine on brain energy metabolites in mice given sublethal doses of ammonium acetate. 851 63

Rapid expression of ICER (inducible cyclic AMP early repressor), an inducible member of the CREM (cyclic AMP response element modulator) family of transcription factors, has been reported in neuroendocrine tissues and cell lines, but not in brain. In the present study, we demonstrate that acute electro-convulsive seizure (ECS) increases the expression of ICER in several rat brain regions. RNase protection analysis demonstrated that 1-2 h after administration of ECS, levels of mRNA for ICER and a splice variant, ICER gamma, were significantly increased in hippocampus, frontal cortex, and cerebellum. It is surprising that ECS also increased levels of mRNA for several CREM isoforms that previous studies have reported were not rapidly inducible. In situ hybridization analysis confirmed these findings and demonstrated that ECS induction of ICER was most obvious in the dentate gyrus granule cell layer of hippocampus and deep layers of cerebral cortex. Induction of ICER and CREM was accompanied by increased expression of two small CRE-binding complexes. Gel supershift analysis with CREM/ICER antisera confirmed that the inducible CRE-binding complexes contain CREM/ICER. Induction of CREM and ICER may contribute to negative feedback regulation of gene transcription that is increased by acute seizure and activation of CREB (cyclic AMP response element-binding protein.
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PMID:Electroconvulsive seizure increases the expression of CREM (cyclic AMP response element modulator) and ICER (inducible cyclic AMP early repressor) in rat brain. 852 85

MKP-1 (also known as CL100, 3CH134, Erp, and hVH-1) exemplifies a class of dual-specificity phosphatase able to reverse the activation of mitogen-activated protein (MAP) kinase family members by dephosphorylating critical tyrosine and threonine residues. We now report the cloning of MKP-3, a novel protein phosphatase that also suppresses MAP kinase activation state. The deduced amino acid sequence of MKP-3 is 36% identical to MKP-1 and contains the characteristic extended active-site sequence motif VXVHCXXGXSRSXTXXXAYLM (where X is any amino acid) as well as two N-terminal CH2 domains displaying homology to the cell cycle regulator Cdc25 phosphatase. When expressed in COS-7 cells, MKP-3 blocks both the phosphorylation and enzymatic activation of ERK2 by mitogens. Northern analysis reveals a single mRNA species of 2.7 kilobases with an expression pattern distinct from other dual-specificity phosphatases. MKP-3 is expressed in lung, heart, brain, and kidney, but not significantly in skeletal muscle or testis. In situ hybridization studies of MKP-3 in brain reveal enrichment within the CA1, CA3, and CA4 layers of the hippocampus. Metrazole-stimulated seizure activity triggers rapid (<1 h) but transient up-regulation of MKP-3 mRNA in the cortex, piriform cortex, and some amygdala nuclei. Metrazole stimulated similar regional up-regulation of MKP-1, although this was additionally induced within the thalamus. MKP-3 mRNA also undergoes powerful induction in PC12 cells after 3 h of nerve growth factor treatment. This response appears specific insofar as epidermal growth factor and dibutyryl cyclic AMP fail to induce significant MKP-3 expression. Subcellular localization of epitope-tagged MKP-3 in sympathetic neurons reveals expression in the cytosol with exclusion from the nucleus. Together, these observations indicate that MKP-3 is a novel dual-specificity phosphatase that displays a distinct tissue distribution, subcellular localization, and regulated expression, suggesting a unique function in controlling MAP kinase family members. Identification of a second partial cDNA clone (MKP-X) encoding the C-terminal 280 amino acids of an additional phosphatase that is 76% identical to MKP-3 suggests the existence of a distinct structurally homologous subfamily of MAP kinase phosphatases.
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PMID:MKP-3, a novel cytosolic protein-tyrosine phosphatase that exemplifies a new class of mitogen-activated protein kinase phosphatase. 862 80

We examined the involvement of the GABAB receptor and the coordinated induction of nuclear transcriptional factors in experimental generalized absence seizures induced by gamma-butyrolactone (GBL) in mice. Although administration of GBL 50 mg/kg did not show any effects on behavior or ECoG pattern, higher doses of GBL (70 and 100 mg/kg, i.p.) induced behavioral changes associated with 3-6-Hz spike and wave discharges in the mice. CGP 35348, a GABAB receptor antagonist, suppressed both the GBL-induced absence seizures and the spike and wave discharges. The antiepileptic effects of CGP 35348 (200 mg/kg, i.p.) were stronger than those of ethosuximide (200 mg/kg, i.p.). Sodium valproate (100 mg/kg, i.p.) attenuated the early phase but not the late phase of the GBL-induced absence seizures. Gel-mobility assay demonstrated that administration of an effective dose of GBL for eliciting spike and wave discharges dose-dependently increased nuclear cyclic AMP-responsive element (CRE)- and activator protein 1 (AP-1) DNA-binding activities in mouse whole brain. The increases in nuclear CRE- and AP-1 DNA-binding were antagonized by CGP 35348 in a dose-dependent fashion. In addition, GABAB receptor binding assay revealed that GBL or antiepileptic drugs did not displace [3H]baclofen binding in cerebral cortical membranes. In contrast, gamma-hydroxybutyrate (GHB), an active metabolite of GBL, inhibited [3H]baclofen binding in a concentration-dependent manner. These results suggest that GABAB receptor-mediated synaptic responses are involved in GBL-induced generalized absence seizures and that the increases in nuclear CRE- and AP-1 DNA-binding activities are correlated with the GBL-induced generalized absence seizures.
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PMID:gamma-Butyrolactone-induced absence-like seizures increase nuclear CRE- and AP-1 DNA-binding activities in mouse brain. 868 96

Gel retardation electrophoresis revealed that binding of a radiolabeled double stranded oligonucleotide probe for the nuclear transcription factor activator protein-1 (AP1) was markedly potentiated 2 h after the intraperitoneal injection of kainic acid (KA) at a dose range of 10-40 mg/kg in a dose-dependent manner in the murine hippocampus. The potentiation was seen in a manner independent of the crisis of convulsive seizures following the administration of KA at different doses. At the highest dose employed, the systemic KA significantly potentiated the AP1 binding in most central discrete structures examined except the cerebellum. In contrast, KA significantly potentiated binding of a radiolabeled probe for cyclic AMP response element binding protein (CREB) in a dose-dependent fashion in the hippocampus, without altering that in other parts of murine brain. No significant alteration was detected in binding of a probe for c-Myc in any brain regions examined 2 h after the administration of KA at different doses. However, immunoblotting analysis demonstrated that KA was ineffective in altering endogenous levels of both CREB and CREB phosphorylated at serine133 in the hippocampus and cerebellum. These results suggest that in vivo systemic KA signals may be selectively transduced to nuclear AP1 in the hippocampus through a mechanism different from phosphorylation of CREB at serine133 in murine brain.
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PMID:Particular nuclear transcription factors responsive to systemic administration of kainic acid in murine brain. 888 88

Nuclear extracts of mouse brain contained binding of radiolabeled oligonucleotide probes for particular transcription factors with leucine-zipper motifs including activator protein-1 (AP1), cyclic AMP response element binding protein (CREB) and c-Myc. An acute intraperitoneal injection of pentylenetetrazole (PTZ) at a convulsive dose significantly potentiated binding of the probe for AP1 in the cerebral cortex, hippocampus, striatum, hypothalamus and midbrain, without affecting that in the medulla-pons and cerebellum, 2 h after the administration. However, PTZ failed to affect binding of the probe for CREB under the similar experimental conditions. In contrast, PTZ induced a slight but statistically significant decrease in binding of the AP1 probe in the cerebellum, without altering that in the hippocampus, 14 h after the injection. On the other hand, repeated administration of PTZ at a subconvulsive dose led to spontaneous kindling seizures in animals, with a concomitant decrease in binding of the AP1 probe in both the hippocampus and cerebellum. In contrast to these animals with acquired spontaneous seizures, however, binding of the AP1 probe was significantly higher in three different telencephalic structures of inherently spontaneous epileptic El mice than that in the parent ddY mice, with binding of probes for CREB and c-Myc being unchanged. These results suggest that different molecular mechanisms may underlie the expression of being unchanged. These results suggest that different molecular mechanisms may underlie the expression of AP1 in discrete brain structures of mice with acquired and inherent spontaneous seizures.
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PMID:Binding of double stranded oligonucleotide probes for particular transcription factors with leucine-zipper motifs in discrete brain structures of mice with acquired and inherent spontaneous seizures. 888 92

In this paper we describe the synthesis of a series of alpha-substituted analogues of the potent and selective group II metabotropic glutamate receptor (mGluR) agonist (1S,1'S,2'S)-carboxycyclopropylglycine (2, L-CCG 1). Incorporation of a substitutent on the amino acid carbon converted the agonist 2 into an antagonist. All of the compounds were prepared and tested as a series of four isomers, i.e., two racemic diastereomers. On the basis of the improvement in affinity realized for the alpha-phenylethyl analogue 3, in this paper we explored the effects of substitution on the aromatic ring as a strategy to increase the affinity to these compounds for group II mGluRs. Affinity for group II mGluRs was measured using [3H]glutamic acid (Glu) binding in rat forebrain membranes. Antagonist activity was confirmed for these compounds by measuring their ability to antagonize (1S,3R)-1-aminocyclopentane-1,3-dicarboxylic acid-induced inhibition of forskolin stimulated cyclic-AMP in RGT cells transfected with human mGluR2 and mGluR3. Meta substitution on the aromatic ring of 3 with a variety of substituents, both electron donating (e.g., methyl, hydroxy, amino, methoxy, phenyl, phenoxy) and electron withdrawing (e.g., fluorine, chlorine, bromine, carboxy, trifluoromethyl) gave from 1.5- to 4.5-fold increases in affinity. Substitution with p-fluorine, as in 97 (IC50 = 0.022 +/- 0.002), was the exception. Here, a greater increase in affinity was realized than for either the ortho- or meta-substituted analogues; 97 was the most potent compound resulting from monosubstitution of the aromatic. At best, only modest increases in affinity were realized for certain compounds bearing either two chlorines or two fluorines, and two methoxy groups gave no improvement in affinity (all examined in a variety of substitution patterns). Three amino acids, 4, 5, and 104, were resolved into their four constituent isomers, and affinity and functional activity for group II mGluRs was found to reside solely in the S,S,S-isomers of each, consistent with 1. With an IC50 = 2.9 +/- 0.6 nM, the resolved xanthylmethyl compound 168 was the most potent compound from this SAR. Amino acid 168 demonstrated high plasma levels following intraperitoneal (i.p.) administration and readily penetrated into the brain. This compound, however, had only limited (approximately 5%) oral bioavailability. Systemic administration of 168 protected mice from limbic seizures produced by the mGluR agonist 3,5-dihydroxyphenylglycine, with an ED50 = 31 mg/kg (i.p., 60 min preinjection). Thus, 168 represents a valuable tool to study the role of group II mGluRs in disease.
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PMID:2-substituted (2SR)-2-amino-2-((1SR,2SR)-2-carboxycycloprop-1-yl)glycines as potent and selective antagonists of group II metabotropic glutamate receptors. 2. Effects of aromatic substitution, pharmacological characterization, and bioavailability. 946 67

Absence seizures are characterised by a well-defined disturbance of thalamocortical function, and there is no spread to other systems. In this study, we continue our examination of the mechanisms underlying the increased nuclear cyclic AMP responsive element (CRE)- and activator protein 1 (AP-1) DNA-binding activities in a gamma-butyrolactone (GBL)-induced mouse model of absence seizure. The administration of GBL increased CRE- and AP-1 DNA-binding activities in the cerebral cortex and thalamus, but not in other regions such as the hippocampus, cerebellum or pons + medulla oblongata, at doses which induced absence seizures. Not only the absence-seizure behavior but also the increased CRE- and AP-1 DNA-binding activities in the thalamocortical regions were reversibly inhibited by ethosuximide, a typical anti-absence drug, and the GABAB antagonists CGP 35348 and CGP 46381. A gel-supershift assay revealed that the GBL-induced CRE-binding activity was supershifted by an anti-CRE-binding protein (CREB) antibody, and that AP-1 DNA-binding activity was blocked by anti-c-Jun and anti-c-Fos antibodies. These results suggest that increased CRE- and AP-1 DNA-binding activities in the cerebral cortex and thalamus are related to the pathogenesis of generalized absence seizures and that these increases in DNA-binding activity are related to ethosuximide- and GABAB antagonist-sensitive abnormal neuronal activity in the thalamocortical circuit.
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PMID:Pharmacological profiles of absence seizure-induced increases in CRE- and AP-1 DNA-binding activities in gamma-butyrolactone-treated mice. 986 26


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