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)

An increase in the cellular production of gap junction proteins and increased numbers of gap junctions in the neuronoglial syncytium of an epileptic focus have been proposed as a possible mechanism underlying synchronization of discharge. To study this issue, both Northern and Western blot analyses of the gap junction protein connexin 43 mRNA and protein abundance were performed on hippocampal tissue resected from patients presenting with a complex partial seizure disorder arising from the medial temporal area and the hippocampus in particular. Samples from 15 patients with medically intractable seizures were compared to those from 5 nonepileptic patients requiring temporal lobectomy in life-threatening situations. Six of the 15 epileptic patients underwent noninvasive electrographic recording, whereas the remaining 9 patients required intracerebral electrodes for extraoperative recording and therefore showed a more discrete focality than the noninvasive recordings. A decline in the mean levels of connexin 43 mRNA expressed predominantly in astrocytes was noted in the epileptic patient groups, particularly for those cases requiring intracranial electrode placement where ictal onset was more clearly established to be intrahippocampal. Quantitation of connexin 43 protein in both epileptogenic and nonepileptogenic hippocampal tissues showed no significant differences in expression. Although mean values for mRNA showed a decline, clinical outcomes postoperatively showed no correlation with either mRNA or protein expression individually in our epileptic population. The findings indicate that there is effectively no upregulation of mRNA and no increased production of connexin 43 protein in response to the development of epileptogenicity. Rather it appears the influence of gap junctions as a substrate of epileptogenicity in any mechanism(s) underlying synchrony or electrical propagation may be a function of the dynamic state (open versus closed) of the membrane-bound gap junction.
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PMID:Hippocampal connexin 43 expression in human complex partial seizure disorder. 918 18

The expression of mRNA for connexin 43, a gap junction protein putatively found in astrocytes, is studied in two experimental models of epilepsy: the electrically kindled rat and the tetanus-toxin-injected rat. Rats were kindled by electrical stimulation of the amygdala to Racine class 5 seizures and divided into cohorts of three to undergo 3, 6, or 10 such events, respectively. Another two cohorts of rats received injections of tetanus toxin at strengths of 3 and 9 MLD50, respectively, into the amygdala. Features of epileptogenicity were identified electrographically in both cohorts during the first 4 wk following toxin injection with spontaneous ictal events recorded in the latter cohort. All rats were sacrificed 4 wk after electrode or cannula implantation, except for two toxin-injected cohorts that were sacrificed at wk 8 or 10. The epileptogeonic area in the region of the amygdala was harvested and pooled by cohort for Northern blot analysis. These were compared with control nonimplanted tissues. In the tetanus-toxin-injected animals, at time-points of 4, 8, and 10 wk, connexin 43 mRNA expression in epileptogenic tissues is found to be decreased or unchanged relative to control cases. Kindled rats demonstrated reductions of connexin mRNA with a trend toward normalizing levels with increasing numbers of stimulations when compared to control animals. Connexin 43 immunostained sections of the basolateral amygdala showed a similar trend in protein expression. Both experimental models of epilepsy show no connexin 43 mRNA upregulation despite varying degrees of epileptogenicity. This study therefore does not support the hypothesis that an increase in transcription is the basis for any proposed increase in gap junction communication involving connexin 43 in the context of epileptogenicity or as a reaction to increased neuronal excitability.
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PMID:Connexin 43 mRNA expression in two experimental models of epilepsy. 943 59

The expression of the gap-junction proteins connexin (CX) 43 and 32 was evaluated in surgical specimens of brain tumors and perilesional cortex from patients with chronic medically intractable epilepsy. In human normal brain CX32 was expressed in neurons and oligodendrocytes. CX32 immunoreactivity (IR) was observed in the neuronal component of glioneuronal tumors and in all oligodendrogliomas, 50% of which showed strong labeling, independent of the grade of differentiation. CX43, normally expressed in astrocytes, was also detected in most of the human astrocytomas and in the astroglial component of glioneuronal tumors. Whereas most of the low-grade gliomas (>60%) showed strong membranous staining, most high-grade astrocytomas exhibited a reduction of the typical plasma membrane CX43-IR and intracytoplasmic localization. Immunoblot analysis showed different CX43 isoforms in control cortex and in low-grade gliomas. However, only one single isoform (corresponding to the non-phosphorylated form of CX43) appeared to be present in most high-grade gliomas. Increased expression of CX43 protein was present in reactive astrocytes in the epileptic cortex surrounding low-grade tumors as compared to control cortex, indicating the existence of a regulatory pathway involving CX43 in the reorganization of the astrocytic syncytium in regions undergoing reactive gliosis. The high expression of connexin proteins in low-grade tumors and in the peritumoral reactive astrocytes suggests that they could contribute to tumor-related seizures.
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PMID:Expression of connexin 43 and connexin 32 gap-junction proteins in epilepsy-associated brain tumors and in the perilesional epileptic cortex. 1148 16

Gene expression changes in pathophysiological states can be spatiotemporally monitored by in situ hybridization and reliably quantified by real-time RT-PCR. Here we developed a new method whereby adjacent slides of frozen sections can be used for gene expression analysis by in situ hybridization and real-time RT-PCR. We applied this method to assess the mRNA expression of connexin 43 (Cx43), the major astrocytic connexin, after kainate-induced seizures in rat hippocampus. Gap junction-building connexins play a role in the pathogenesis of several diseases of the brain, including epilepsy. The number of Cx43 mRNA-positive cells in the hippocampus of kainate-treated and control rats was automatically quantified by computerized image analysis of brain sections hybridized with DIG-labeled RNA probes. In parallel, real-time RT-PCR was used to examine the relative Cx43 mRNA levels in hippocampal tissue from adjacent brain sections. Applying these two very sensitive methods we showed that kainate induced seizures do not affect hippocampal connexin 43 mRNA expression.
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PMID:The combined use of non-radioactive in situ hybridization and real-time RT-PCR to assess gene expression in cryosections. 1699 35

Astrocytes play an important role in the coupling between neuronal activity and brain blood flow via their capacity to "sense" neuronal activity and transmit that information to parenchymal arterioles. Here we show another role for astrocytes in neurovascular coupling: the ability to act as a signaling conduit for the vitally important process of upstream vasodilation (represented by pial arterioles) during both excessive (seizure) and physiological (sciatic nerve stimulation) increases in cerebral cortical neuronal activity. The predominance of an astrocytic rather than a vascular route was indicated by data showing that pial arteriolar-dilating responses to neuronal activation were completely blocked following selective disruption of the superficial glia limitans, whereas interference with interendothelial signaling was without effect. Results also revealed contributions from connexin 43, implying a role for gap junctions and/or hemichannels in the signaling process and that signaling from the glia limitans to pial arterioles may involve a diffusible mediator.
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PMID:Astrocytes are a key conduit for upstream signaling of vasodilation during cerebral cortical neuronal activation in vivo. 1817 16

Gap junctions are cytoplasmic channels connecting adjacent cells and mediating their electrical and metabolic coupling. Different cell types in the CNS express various gap junction forming proteins, the connexins, in a cell-specific manner. Using the general gap junctional blocker, carbenoxolone, and two synthetic connexin mimetic peptides, corresponding to amino acid sequences of segments within the second extracellular loop of connexin 43, we studied the role of gap junctions in the generation of epileptiform activity in rat organotypic hippocampal slice cultures. While carbenoxolone inhibited both spontaneous and evoked seizure-like events, connexin mimetic peptides selectively attenuated spontaneous recurrent epileptiform activity, and only after prolonged (>10 h) treatment. The effects were mediated through reduced gap junctional coupling as indicated by suppressed fluorescent dye transfer between the cells. Assuming a selective inhibition of a connexin 43-dependent process by the mimetic peptides and preferential localization of this connexin isoform in astrocytes, the data suggest that, in developing hippocampal networks, the generation and/or initiation of spontaneous recurrent seizure-like activity may depend in large part upon the opening of glial gap junctions. Furthermore, this study shows that the use of a synthetic peptide that mimics a short sequence of a specific connexin isoform and, hence, blocks gap junctional communication in targeted cell types in the CNS, is a viable strategy for the modulation of cerebral activity.
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PMID:Connexin 43 mimetic peptides inhibit spontaneous epileptiform activity in organotypic hippocampal slice cultures. 1828 29

There is accumulating evidence that epileptic activity is accompanied by inflammatory processes. In the present study, we evaluated the effect of levetiracetam (Keppra), an anticonvulsant drug with decisive antiepileptic features, with regard to its putative antiinflammatory potential. We previously established an in vitro cell culture model to mimic inflammatory conditions: Primary astrocytic cultures of newborn rats were cocultured with 30% (M30) microglial cells. Alternatively, cocultures containing 5% microglia (M5) were incubated with the proinflammatory mediator, the cytokine interleukin-1beta (IL-1beta), and lipopolysaccharide (LPS), a potent bacterial activator of the immune system. For the M30 cocultures, we observed reduced expression of connexin 43 (Cx43), the predominant gap junction protein. Impaired functional dye coupling and depolarized membrane resting potential (MRP) were monitored in M30 cocultures as well as in M5 cocultures treated with IL-1beta and LPS. We could show that the Cx43 expression, the coupling property, and the membrane resting potential on which we focused our inflammatory coculture model were normalized to noninflammatory level under treatment with levetiracetam (Keppra). Cumulatively, our results provide evidence for antiinflammatory properties of levetiracetam in seizure treatment.
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PMID:Implications of antiinflammatory properties of the anticonvulsant drug levetiracetam in astrocytes. 1833 43

The predominantly autosomal dominant disorder, oculodentodigital dysplasia (ODDD) has high penetrance with intra- and interfamilial phenotypic variability. Abnormalities observed in ODDD affect the eye, dentition, and digits of the hands and feet. Patients present with a characteristic facial appearance, narrow nose, and hypoplastic alae nasi. Neurological problems, including dysarthria, neurogenic bladder disturbances, spastic paraparesis, ataxia, anterior tibial muscle weakness, and seizures, are known to occur as well as conductive hearing loss, cardiac defects, and anomalies of the skin, hair, and nails. In 2003, our analysis of 17 ODDD families revealed that each had a different mutation within the human gap junction alpha 1 (GJA1) gene which encodes the protein connexin 43 (Cx43). Since then at least 17 publications have identified an additional 26 GJA1 mutations and in this study, we present 28 new cases with 18 novel GJA1 mutations. We include tables summarizing the 62 known GJA1 nucleotide changes leading to Cx43 protein alterations and the phenotypic information available on 177 affected individuals from 54 genotyped families. Mutations resulting in ODDD occur in each of the nine domains of the Cx43 protein, and we review our functional experiments and those in the literature, examining the effects of 13 different Cx43 mutations upon gap junction activity.
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PMID:GJA1 mutations, variants, and connexin 43 dysfunction as it relates to the oculodentodigital dysplasia phenotype. 1933 53

Profound astrogliosis coincident with neuronal cell loss is universally described in human and animal models of temporal lobe epilepsy (TLE). In the kainic acid-induced status epilepticus (SE) model of TLE, astrocytes in the hippocampus become reactive soon after SE and before the onset of spontaneous seizures. To determine if astrocytes in the hippocampus exhibit changes in function soon after SE, we recorded from SR101-labeled astrocytes using the whole-cell patch technique in hippocampal brain slices prepared from control and kainic-acid-treated rats. Glutamate transporter-dependent currents were found to have significantly faster decay time kinetics and in addition, dye coupling between astrocytes was substantially increased. Consistent with an increase in dye coupling in reactive astrocytes, immunoblot experiments demonstrated a significant increase in both glial fibrillary acidic protein (GFAP) and connexin 43, a major gap junction protein expressed by astrocytes. In contrast to what has been observed in resected tissue from patients with refractory epilepsy, changes in potassium currents were not observed shortly after KA-induced SE. While many changes in neuronal function have been identified during the initial period of low seizure probability in this model of TLE, the present study contributes to the growing body of literature suggesting a role for astrocytes in the process of epileptogenesis.
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PMID:Increased coupling and altered glutamate transport currents in astrocytes following kainic-acid-induced status epilepticus. 2069 86

It is known that neuronal ATP-sensitive potassium (K(ATP)) channels and astrocytic gap junctions (GJs) are involved in the mechanism underlying neurodisorders. The K(ATP) channels exist also in glial cells, and the objective of this study was to determine whether the astrocytic K(ATP) channels exert their effect on neurotoxin-induced neurodysfunction through regulating the astrocytic GJ function. The results showed that diazoxide, a selective mitochondrial K(ATP) (mitoK(ATP)) channel opener, enhanced the GJ coupling, but 5-hydroxydecanoate, a selective mitoK(ATP) channel blocker that significantly inhibits GJ coupling in vitro did not. Activation of astrocytic mitoK(ATP) channels alleviated kainic acid-induced dysfunction of GJ intercellular communication. Finally, activation of mitoK(ATP) channels improved the astrocytic GJ coupling in the hippocampus after seizures due to the colabeling of GJ subunit connexin 43 and connexin 45 with glial marker and was increased substantially by the administration of diazoxide. Western blot demonstrated that the mitoK(ATP) channels regulated the expression of connexin 43 (P2; active form) and connexin 45 in the epileptic hippocampus. These findings demonstrate that activation of astrocytic mitoK(ATP) channels improves the GJ function in astrocytes, indicating that the effect of the astrocytic mitoK(ATP) channels on neurotoxin-induced neurodysfunction might be, in part, through the regulation of the GJ-coupled spatial buffering in the hippocampus.
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PMID:Regulation of gap junctional communication by astrocytic mitochondrial K(ATP) channels following neurotoxin administration in in vitro and in vivo models. 2147 9


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