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Query: UMLS:C0036572 (seizures)
 80,221 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We sought to identify a clonidine withdrawal syndrome in conscious rats by investigating the effects of a single injection of the specific alpha2-adrenergic antagonist atipamezole (1.5 mg/kg i.p.) after chronic treatment with the alpha2-adrenergic agonist clonidine (200 microg/kg per day via osmotic mini-pump for 7-10 days). Rats treated chronically with clonidine followed by atipamezole injection (clonidine-atipamezole) demonstrated dramatic behavioral effects including shaking, vigorous digging, and whole-body seizure-like movements. Control groups (saline-saline, clonidine-saline and saline-atipamezole) showed no overt unusual behavioral effects following injection. The brains of the clonidine-atipamezole group showed massive c-Fos expression (especially in di- and telencephalon) while the other groups showed either background levels of c-Fos-immunopositive cells (saline-saline and clonidine-saline groups) or a slight increase over background in selected areas (saline-atipamezole group). Maps of c-Fos-immunolabeled cells were generated at five representative coronal planes for each treatment group. C-Fos-immunopositive cells were counted in three representative brainstem structures (locus coeruleus, nucleus of the solitary tract, rostral ventrolateral medulla (RVL)) and in three regions of the thoracic spinal cord (dorsal horn, intermediate zone and ventral horn). In the three brainstem structures the number of c-Fos-positive cells was elevated 8-10-fold in the clonidine-atipamezole group compared to the other groups. No other treatment group was significantly different from the saline-saline group. An increased number of c-Fos-positive neurons was also noted in the dorsal horn and intermediate layers of the thoracic spinal cord in the clonidine-atipamezole group compared to a sham-operated atipamezole-injected group. In the RVL, 59% of c-Fos-positive cells contained alpha2A-adrenergic receptor-like immunoreactivity in clonidine-atipamezole treated (withdrawing) rats. In addition, one-third of the tyrosine hydroxylase (TH)-immunopositive cells in RVL were also c-Fos-positive in clonidine withdrawing rats where no TH-positive cells were also c-Fos-positive in RVL of control groups. Atipamezole injected 10 min after a single injection of clonidine (200 microg/kg, i.p.) produced no behavioral effect and did not increase c-Fos expression in brainstem. Injection of the opiate antagonist naltrexone (100 mg/kg, i.p.) in rats chronically treated with clonidine did not elicit behavioral effects or result in increased c-Fos expression in brainstem. In conclusion, administration of the selective alpha2-antagonist atipamezole to rats chronically treated with the alpha2-adrenergic agonist clonidine triggers a powerful withdrawal syndrome associated with massive CNS expression of c-Fos protein. The intensity of the withdrawal syndrome indicates that chronic exposure to alpha2-adrenergic receptor agonists produces strong dependence.
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PMID:Atipamezole-precipitated clonidine withdrawal induces c-Fos expression in rat central nervous system. 929 96

Lamotrigine (LTG), an anticonvulsive drug, was tested for its effects on striatal content of DA and its metabolites, DOPAC and HVA, in audiogenic seizure-resistant (ER) and audiogenic seizure-prone (EP) lines of Balb/c mice. A single dose of LTG (20 mg/kg) prevented audiogenic seizures in seizure-prone mice, while reducing substantially the striatal content of the DA metabolite, DOPAC (to less than 50% of saline-injected controls) in both seizure-resistant and seizure-prone mice. LTG administration also resulted in significant reduction of striatal content of HVA. The in situ activity of tyrosine hydroxylase (TH) in extracts of striatum was significantly reduced by LTG administration in both ER and EP mice. These data show that DA synthesis in the striatum of mice is substantially reduced by LTG administration.
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PMID:Lamotrigine inhibits the in situ activity of tyrosine hydroxylase in striatum of audiogenic seizure-prone and audiogenic seizure-resistant Balb/c mice. 941 65

A primary determinant of seizure susceptibility and severity in genetically epilepsy-prone rats (GEPRs), is a generalized deficiency in the central noradrenergic system of these animals. In particular, this deficiency includes reduced numbers of norepinephrine (NE) synaptic terminals in several brain areas and distinctly fewer NE axons within the auditory tectum. Two strains of GEPRs have been developed: GEPR-3s that have moderately severe clonic seizures and GEPR-9s that have severe tonic seizures culminating in complete hindlimb extension. Seizures in animals of each substrain are preceded by a brief episode of wild running. The developmental profile of NE axonal growth in GEPRs compared to control rats is not known, but may be causally related to NE deficiencies in this seizure model. The present study compared developmental neurite extension of fetal NE neurons in vitro between GEPR-3s and Sprague-Dawley control rats, the strain from which GEPR-3s were originally derived. Neurite arborization of individual NE neurons was assessed by quantitative morphometry following immunocytochemical identification of tyrosine hydroxylase (TH). Preliminary studies using explant and dispersed-cell cultures of control-rat tissues showed that optimal culture parameters to support neuritogenesis of LC neurons included the use of dispersed-cell cultures, Pronectin-F substrate, day-14 gestation donor-tissue, no use of cytosine-arabinofuranoside (ARA-c, a glial mitotic inhibitor) and the presence of co-cultured tectal tissue. Compared to fetal control-rat NE neurons co-cultured with fetal control-rat tectum, NE neurons derived from fetal GEPR-3 LC in co-culture with GEPR-3 tectum exhibited only 30% of the neurite extension of control-rat LC neurons and GEPR-3 LC neurons had a similarly deficient amount of branching. This study suggests, but does not prove, that deficiency in tectal NE in GEPR-3s involves a developmental deficiency in neurite extension from GEPR-3 LC neurons. Hypothetically, this deficiency may also contribute to the well described NE deficiency in other regions of the adult GEPR brain.
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PMID:Neurite extension of developing noradrenergic neurons is impaired in genetically epilepsy-prone rats (GEPR-3s): an in vitro study on the locus coeruleus. 947 46

Niemann-Pick disease Type C (NPC) is a progressive neurovisceral metabolic disorder that is caused in most patients by a defect in a recently found gene, NPC-1. Neurological damage includes visual disorders such as vertical supranuclear gaze palsy, movement disorders such as dystonia and ataxia, dementia, and seizures. So far the biochemical deficit, most likely manifested by delayed intracellular cholesterol transport, has not been correlated with the progressive neurological damage. A mutant Balb/C mouse with a defect in the same gene is used as a model to study NPC. Pathological examination of brain tissue obtained by autopsy from NPC patients or brains of affected NPC mice of different ages, revealed signs of extensive damage throughout the brain, including neurofibrillary tangles and intracellular storage of various compounds. Loss of cerebellar Purkinje cells was the most significant specific damage. The present study examined whether the neurochemical changes present in the NPC mouse brain were related to the pathological changes. The results show major alterations in the levels of serotonin and its main metabolite, 5-hydroxyindoleacetic acid, in the cerebellum and cortex of NPC mice. The levels of the inhibitory amino acid glycine were threefold higher in the cerebellum of NPC mice and those of glutamate and GABA decreased in the cortex. Tyrosine hydroxylase immunoreactivity was present in Purkinje cells, and the levels of L-DOPA increased specifically in the vermis of the cerebellum. These results are the first to indicate changes in neurotransmitters in NPC and that these could be correlated with some of the neuropathology of this disease.
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PMID:Neurochemical alterations in the cerebellum of a murine model of Niemann-Pick type C disease. 967 2

Noradrenergic locus coeruleus (LC) efferents to the forebrain suppress seizures in several models of epilepsy. Using in situ hybridization, we demonstrate that tyrosine hydroxylase (TH) and norepinephrine transporter (NET) but not vesicular monoamine transporter 2 (VMAT2) mRNA levels are transiently elevated in LC neurons following kainic acid-induced status epilepticus. These increases of TH and NET mRNAs and presumably of the proteins themselves might enhance synthesis and reuptake of NE postictally.
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PMID:Regulation of norepinephrine transporter and tyrosine hydroxylase mRNAs after kainic acid-induced seizures. 1052 18

An early indicator of damage to substantia nigra dopamine neurons in vitro is loss of dendrites that precedes loss of the cell body. To investigate dendritic damage in vivo, rats were treated for 1 day or 1 week with kainic acid (KA; 5 or 10 mg/kg i.p.), the brain fixed and substantia nigra (SN) dopamine neurons and their dendrites labeled using an antibody to tyrosine hydroxylase (TH). KA (10 mg/kg) produced seizures initially and resulted in significant loss of TH immunoreactivity in dendrites of dopamine neurons 1 week, but not 1 day, after a single injection. Daily injections of 5 mg/kg KA, which did not produce seizures, resulted in more extensive dendritic damage. The findings indicate that loss of dendritic staining is a sensitive index of damage to SN dopamine neurons in vivo.
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PMID:Loss of tyrosine hydroxylase immunoreactivity in dendrites is a sensitive index of kainic acid-induced damage in rat substantia nigra neurons in vivo. 1069 98

Neuronal degeneration was detected in the tenia tecta and other regions of the anterior limbic system of male weanling rats 3 days after four doses of 5 mg/kg d-amphetamine (4 x 5 mg/kg AMPH) when seizures occurred during AMPH exposure. Neurodegeneration in the parietal cortex, loss of tyrosine hydroxylase immunoreactivity in the caudate-putamen (CPu) and decreases in CPu tissue dopamine levels in weanlings was much less than those previously observed in adults. The neurotoxicity seen in the parietal cortex and CPu of the weanlings was much less than previously seen in adults even though severe hyperthermia and the behavior of retrograde propulsion occurred during AMPH exposure. Neurodegeneration was not detected in any of the previously mentioned brain regions in controls and weanlings made hyperthermic by a warm environment. However, signs of spontaneous neurodegeneration were seen in the posterior piriform cortex (Pir), posteriolateral cortical amygdaloid nucleus (PLCo), and the amygdalopiriform transition area (APir) of control weanlings. The doses of AMPH and the degree of hyperthermia necessary to induce seizures were substantially lower in weanlings compared to those previously observed in adult rats. Further studies will be necessary to determine if the susceptibility of weanlings to AMPH-induced seizures is related to or dependent on the same processes involved in producing degeneration in the posterior limbic system of saline controls.
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PMID:Neuronal degeneration in the limbic system of weanling rats exposed to saline, hyperthermia or d-amphetamine. 1110 70

Rocker (gene symbol rkr), a new neurological mutant phenotype, was found in descendents of a chemically mutagenized male mouse. Mutant mice display an ataxic, unstable gait accompanied by an intention tremor, typical of cerebellar dysfunction. These mice are fertile and appear to have a normal life span. Segregation analysis reveals rocker to be an autosomal recessive trait. The overall cytoarchitecture of the young adult brain appears normal, including its gross cerebellar morphology. Golgi-Cox staining, however, reveals dendritic abnormalities in the mature cerebellar cortex characterized by a reduction of branching in the Purkinje cell dendritic arbor and a "weeping willow" appearance of the secondary branches. Using simple sequence length polymorphism markers, the rocker locus was mapped to mouse chromosome 8 within 2 centimorgans of the calcium channel alpha1a subunit (Cacna1a, formerly known as tottering) locus. Complementation tests with the leaner mutant allele (Cacna1a(la)) produced mutant animals, thus identifying rocker as a new allele of Cacna1a (Cacna1a(rkr)). Sequence analysis of the cDNA revealed rocker to be a point mutation resulting in an amino acid exchange: T1310K between transmembrane regions 5 and 6 in the third homologous domain. Important distinctions between rocker and the previously characterized alleles of this locus include the absence of aberrant tyrosine hydroxylase expression in Purkinje cells and the separation of the absence seizures (spike/wave type discharges) from the paroxysmal dyskinesia phenotype. Overall these findings point to an important dissociation between the seizure phenotypes and the abnormalities in catecholamine metabolism, and they emphasize the value of allelic series in the study of gene function.
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PMID:Rocker is a new variant of the voltage-dependent calcium channel gene Cacna1a. 1116 Mar 87

The genetically epilepsy-prone rat (GEPR) is a model of generalized tonic/clonic epilepsy, and has functional noradrenergic deficiencies that act as partial determinants for the seizure predisposition and expression. The present study investigated the effect of repeated seizure experiences by acoustic stimulation (110 dB, 10 times) on the immunoreactivities of tyrosine hydroxylase (TH), a rate-determining enzyme in the synthesis of norepinephrine, in brain regions of GEPRs. TH immunoreactivity in locus coeruleus, the major noradrenergic nucleus in brain, was lower in GEPRs than control Sprague-Dawley rats. It was also decreased in several regions including inferior colliculus of GEPRs. Repeated experiences of audiogenic seizures further decreased TH immunoreactivities in locus coeruleus and inferior colliculus of GEPRs. The results from the present study suggest that the lower immunoreactivities of TH in locus coeruleus and inferior colliculus contribute, at least in part, to the noradrenergic deficits in GEPRs, and repeated seizure experiences further intensified these noradrenergic deficits, which may be related to the altered seizure expression by repetitive audiogenic seizure in GEPRs.
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PMID:Effect of repeated seizure experiences on tyrosine hydroxylase immunoreactivities in the brain of genetically epilepsy-prone rats. 1117 42

Episodes of prolonged seizures or head trauma produce chronic hippocampal network hyperexcitability hypothesized to result primarily from inhibitory interneuron loss or dysfunction. The possibly causal role of inhibitory neuron failure in the development of epileptiform pathophysiology remains unclear because global neurologic injuries produce such a multitude of effects. The recent finding that Substance P receptors (SPRs) are expressed exclusively in the rat hippocampus by inhibitory interneurons provided the rationale for attempting to ablate interneurons selectively by using neurotoxic conjugates of SPR ligands and the ribosome inactivating protein saporin that specifically target Substance P receptor-expressing cells. Whereas intrahippocampal microinjection of a conjugate of native SP and saporin produced significant nonspecific damage at concentrations needed to produce even limited selective loss of SPR-positive cells, a conjugate of saporin and the more potent and peptidase-resistant SP analog [Sar(9), Met(O(2))(11)] Substance P (SSP-saporin) caused negligible nonspecific damage at the injection site, and a virtually complete loss of SPR-like immunoreactivity (LI) up to 1 mm from the injection site. Within the SPR depletion zone, immunoreactivities for most GABA-, parvalbumin-, somatostatin-, and cholecystokinin-immunoreactive cells and fibers were eliminated. The few interneurons detectable within the affected zone were devoid of SPR-LI. The apparent loss of interneurons was selective in that calbindin- and glutamate receptor subunit 2 (GluR2) -positive principal cells survived within the affected zone, as did myelinated fibers and the extrinsic calretinin- and tyrosine hydroxylase--immunoreactive terminals of subcortical afferents. An apparent lack of reactive synaptic reorganization in response to interneuron loss was indicated by zinc transporter-3 (ZnT3)-- and beta-synuclein--LI, as well as by Timm staining, all of which revealed relatively normal patterns of excitatory terminal distribution. Control injections produced minor damage at the injection site, but no apparent specific loss of SPR-LI. One to 12 weeks after injection of SSP-saporin, extracellular electrophysiological field responses recorded in the CA1 pyramidal and dentate granule cell layers in response to afferent stimulation were blindly evaluated simultaneously in two sites 1-2 mm apart along the longitudinal hippocampal axis. SSP-saporin-treated rats exhibited relatively normal responses in some sites, whereas disinhibition and hyperexcitability indistinguishable from the pathophysiology produced by experimental status epilepticus were simultaneously recorded at adjacent sites. Anatomic analysis of the recording sites in each animal revealed that epileptiform pathophysiology was consistently observed only within areas of SPR ablation, whereas relatively normal evoked responses were recorded from immediately adjacent and relatively unaffected regions. These data establish the efficacy of [Sar(9), Met(O(2))(11)] Substance P-saporin for producing a selective and spatially extensive ablation of hippocampal inhibitory interneurons in vivo and a highly focal disinhibition that was restricted to the site of interneuron loss. These results also demonstrate that the "epileptic" pathophysiology produced by experimental status epilepticus or head trauma can be replicated by focal interneuron loss per se, without involving principal cell loss and other interpretive confounds inherent in the use of global neurologic injury models.
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PMID:Focal inhibitory interneuron loss and principal cell hyperexcitability in the rat hippocampus after microinjection of a neurotoxic conjugate of saporin and a peptidase-resistant analog of Substance P. 1143 20


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