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 method of polymerase chain reaction was used to investigate the pre- and postmortem factors which affect the stability of specific mRNAs in the C1 region of human autopsy brain. Eight premortem and 4 postmortem factors were correlated to levels of phenylethanolamine N-methyltransferase (PNMT), three splice forms of amyloid precursor protein (APP) and actin mRNAs in 10 control brains using Pearson's correlation coefficient. Significant negative correlations were found between hypoxia and PNMT mRNA, and between postmortem and storage intervals and APP751 and beta-actin mRNAs. A positive correlation was found between death-refrigeration interval and total APP and APP695 mRNAs. There was also a positive correlation between seizure activity and APP770 mRNA. The results indicate that a variety of pre- and postmortem factors can affect mRNA levels. The possible effect of pre- and postmortem factors on specific mRNA levels should be investigated prior to comparing mRNA levels in different disease states.
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PMID:Effect of pre- and postmortem variables on specific mRNA levels in human brain. 166 43

Several lines of evidence suggest an important role for ethanol interactions with GABAA receptors in the development of the ethanol withdrawal syndrome. The present study was undertaken to determine whether there is a genetic relationship between ethanol withdrawal seizure severity and the expression of particular GABAA receptor subunits in mouse lines selectively bred for differential sensitivity to ethanol withdrawal seizures. Since GABAA receptor subunit levels are subject to modulation by ethanol, the levels of GABAA receptor alpha 1, alpha 6 and beta 2 subunit mRNAs were measured in cerebellum while alpha 1 and beta 2 subunit levels were determined in cerebral cortex of ethanol-naive WSR and WSP mice. Poly(A)+ RNA was isolated from groups of 6-10 animals and the GABAA receptor subunit mRNA levels were quantified by Northern blot analysis using subunit selective cRNA probes. In the cerebellum, greater levels of each of these subunit mRNAs were detected in WSR1 mice compared to WSP1 mice. The levels of GABAA receptor alpha 1 subunit mRNAs were approximately 26 +/- 16 percent greater for the 4.4 kb transcript and 84 +/- 23 percent greater for the 4.8 kb transcript in WSR mice vs WSP mice. GABAA receptor alpha 6 subunit (2.7 kb) mRNA levels in cerebellum were 159 +/- 58 percent greater in WSR mice than WSP mice, while beta 2 subunit mRNA levels were 110 +/- 30 percent greater in WSR than WSP mice. These results were replicated for the alpha 1 and alpha 6 subunits in WSR2 vs WSP2 mouse cerebella. No differences in beta-actin mRNA levels were detected on the same RNA blots.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Differential expression of GABAA receptor subunit mRNAs in ethanol-naive withdrawal seizure resistant (WSR) vs. withdrawal seizure prone (WSP) mouse brain. 780 18

Although different mechanisms have been proposed, it has been suggested that apolipoprotein J (ApoJ) and metallothionein II (MTII), expressed by astrocytes, are protective proteins. Alterations in their expression may contribute to the involvement of astrocytes in epileptogenesis. We studied the expression of MTII and ApoJ genes 7 days following status epilepticus induced in rats by intra-amygdala injection of kainate (KA). ApoJ mRNA levels were increased in both cortex (77%, p < 0.01) and hippocampus (64%, p < 0.02), whereas, in contrast to previous findings 3 days after KA injection, DNA fragmentation was not detected on agarose gel electrophoresis. These results show that ApoJ is induced along with early genes during massive apoptosis, and remains induced after the acute phase. MTII mRNA levels were altered only in hippocampus (62%, p < 0.05), whereas KA-treated rats had no seizure for 7 days. The sustained induction of MTII mRNA shows that zinc homeostasis is not returned to normal or alternatively that astrocytes maintain an altered phenotype in spite of normal zinc release. Polyadenylated RNA and beta-actin mRNA levels were in contrast unaltered in cortex or hippocampus at this time point. These specific variations in ApoJ and MTII mRNA expression during the latent period suggest that they are part of long term biochemical and/or phenotypic alterations in astrocytes, following a single episode of severe seizures.
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PMID:Alterations of metallothionein II and apolipoprotein J mRNA levels in kainate-treated rats. 959 52

Transgenic mice overexpressing brain-derived neurotrophic factor from the beta-actin promoter were tested for behavioral, gross anatomical and physiological abnormalities. Brain-derived neurotrophic factor messenger RNA overexpression was widespread throughout brain. Overexpression declined with age, such that levels of overexpression decreased sharply by nine months. Brain-derived neurotrophic factor transgenic mice had no gross deformities or behavioral abnormalities. However, they showed a significant passive avoidance deficit. This deficit was dependent on continued overexpression, and resolved with age as brain-derived neurotrophic factor transcripts decreased. In addition, the brain-derived neurotrophic factor transgenic mice showed increased seizure severity in response to kainic acid. Hippocampal slices from brain-derived neurotrophic factor transgenic mice showed hyperexcitability in area CA3 and entorhinal cortex, but not in dentate gyrus. Finally, area CA1 long-term potentiation was disrupted, indicating abnormal plasticity. Our data suggest that overexpression of brain-derived neurotrophic factor in the brain can interfere with normal brain function by causing learning impairments and increased excitability. The results also support the hypothesis that excess brain-derived neurotrophic factor could be pro-convulsant in the limbic system.
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PMID:Brain-derived neurotrophic factor transgenic mice exhibit passive avoidance deficits, increased seizure severity and in vitro hyperexcitability in the hippocampus and entorhinal cortex. 1050 74

The postsynaptic density is a highly dynamic structure, which is reorganized in an activity-dependent manner. An animal model for temporal lobe epilepsy, i.e. kainate-induced limbic seizures in rats, was used to study changes in postsynaptic density composition after extensive synaptic activity. Six hours after kainate injection, the protein content of the postsynaptic density fractions from rats that developed strong seizures was increased three-fold compared to saline-treated controls. Immunoblot analysis revealed that the relative amounts of metabotropic glutamate receptor 1alpha, N-ethylmaleimide-sensitive fusion protein, protein kinases C, Fyn and TrkB, as well as the neuronal nitric oxide synthase, were significantly higher in seizure-developing than in control rats. In contrast, the relative contents of the kainate receptor KA2 subunit, beta-actin, alpha-adducin and the membrane-associated guanylate kinase homolog SAP90/PSD-95 were decreased. The relative amounts of additional postsynaptic density proteins, including alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionate and N-methyl-D-aspartate receptor subunits, calcium/calmodulin-dependent kinase type II, casein kinase 2, tubulin, microtubule-associated protein 2B, the membrane-associated guanylate kinase homolog SAP102, and proline-rich synapse-associated protein 1/cortactin binding protein 1/Shank2 remained essentially unchanged. To assess possible changes in postsynaptic performance, postsynaptic densities were isolated from control and epileptic rats, incorporated into giant liposomes and N-methyl-D-aspartate receptor currents were recorded. A significant reduction in the mean conductance was observed in patches containing postsynaptic densities from animals with high seizure activity. This was due to the presence of reduced conductance levels in each membrane patch compared to control postsynaptic density preparations. From these data, we suggest that intense synaptic activity associated with seizures modifies the composition of postsynaptic densities and has profound consequences on the function of the N-methyl-D-aspartate receptors present in them. This rearrangement may accompany impairment of synaptic plasticity.
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PMID:Kainate-induced seizures alter protein composition and N-methyl-D-aspartate receptor function of rat forebrain postsynaptic densities. 1122 70

Enteroviruses have been implicated as a cause of low Apgar scores in conjunction with perinatal seizures and respiratory insufficiency. Using in-situ reverse transcriptase polymerase chain reaction (in-situ PCR), Nuovo et al detected enterovirus in up to 86% of placentas from perinates exhibiting these symptoms. In-situ PCR has been the only method employed to assess for the presence ofenterovirus in this specific patient population. The purpose of our study was to use PCR amplification of enterovirus from extracted RNA to confirm these observations. RNA was extracted from 26 placentas of infants with low Apgar scores, perinatal seizures, and respiratory insufficiency. Each extraction was positive for beta-actin RNA, which confirmed that the integrity of RNA was maintained in the sample. Enterovirus RNA was not detected in any of the cases. Our results indicate that enterovirus is not present in placentas from neonates with the combination of low Apgar scores, respiratory insufficiency, and seizures, as previously reported.
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PMID:Enterovirus is not present in placentas from cases of perinatal depression using polymerase chain reaction analysis. 1880 15

Epilepsy in children is associated with a broad spectrum of cognitive deficits, which is associated with hippocampal mossy fiber sprouting. The underlying molecular mechanisms involved in mossy fiber sprouting in hippocampus following developmental seizures are not completely known. We studied the timing of cognitive dysfunction following neonatal seizures and the relation of this cognitive impairment to zinc transporter 1 (ZnT-1), 3 (ZnT-3), calcium/calmodulin-dependent protein kinase II (CaMK II), plasticity-related gene 1 (PRG-1) expression in hippocampus. A seizure was induced by inhalant flurothyl daily in neonatal Sprague-Dawley rats from postnatal day 6 (P6). Rats were assigned into the single-seizure group (SS), the recurrent-seizure group (RS, seizures induced in six consecutive days), and the control group. During P41-P46 and P85-P90, the rats were tested for spatial learning and memory abilities with automatic Morris water maze task. At P90, mossy fiber sprouting and gene expression in hippocampus were determined subsequently by Timm staining and RT-PCR methods. The escape latencies from the water maze were significantly longer in rats of RS group than those of the control and SS groups at d4 of the first maze test and at d3, d4 of the second maze test. As far as Spatial Probe Test was concerned, the frequency of passing through the platform quadrant was significantly decreased in RS group than that in control and SS groups in the entire two probe tests. In rats with recurrent seizures (RS group), there was an increased distribution of Timm granules in both the supragranular region of the dentate gyrus and the stratum pyramidale of CA3 subfield in RS group, while remaining barely visible in control and SS groups; the Timm scores in CA3 and dentate gyrus in the RS animals were significantly higher than that in the control and SS groups. RT-PCR densitometry analysis showed that the ratios of hippocampal ZnT-1 to beta-actin of SS and RS group were decreased significantly compared with that of control group. Meanwhile, CaMK II to beta-actin of RS group was markedly lower compared with those of SS and control groups. Our results suggest that the long-term adverse effects of recurrent neonatal seizures on cognition and mossy fiber sprouting may be associated with the down-regulated expression of ZnT-1 and CaMK II in hippocampus.
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PMID:ZnT-1, ZnT-3, CaMK II, PRG-1 expressions in hippocampus following neonatal seizure-induced cognitive deficit in rats. 1905 22

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

Neuropeptide Y (NPY) is an endogenous peptide with powerful anticonvulsant properties. Its overexpression in the rat hippocampus, mediated by the local application of recombinant adeno-associated viral (rAAV) vectors carrying the human NPY gene, results in significant reduction of seizures in acute and chronic seizure models. In this study, we characterized a more efficient rAAV-NPY vector to improve cell transfection in the injected area. The changes included pseudotyping with the AAV vector serotype 1 (rAAV1), and using the strong constitutive hybrid CBA promoter, which contains a cytomegalovirus enhancer and chicken beta-actin promoter sequences. We compared NPY expression and the associated anticonvulsant effects of this new vector, with those mediated by the former rAAV vector with chimeric serotype 1/2 (rAAV1/2). In addition, we investigated whether rAAV serotype 1 vector-mediated chronic NPY overexpression causes behavioural deficits that may detract from the clinical utility of this therapeutic approach. We report that rAAV-NPY serotype 1 vector has significantly improved anticonvulsant activity when compared with serotype 1/2 vector, as assessed by measuring EEG seizure activity in kainic acid treated rats. rAAV1-mediated NPY overexpression in naive rats did not result in alterations of physiological functions such as learning and memory, anxiety and locomotor activity. In addition, we did not observe glia activation, or humoral immune responses against serotype 1 vector, which could inactivate gene expression. Our findings show that rAAV1-NPY vector with the CBA promoter mediates powerful anticonvulsant effects and seems to be safe in rodents, thus it may be considered a vector of choice for possible clinical applications.
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PMID:Anticonvulsant effects and behavioural outcomes of rAAV serotype 1 vector-mediated neuropeptide Y overexpression in rat hippocampus. 2022 Jul 82