Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0004134 (ataxia)
15,886 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Most previous studies investigating the relationship between N-methyl-D-aspartate receptor-dependent synaptic plasticity and learning have employed drugs that either compete with glutamate for access to the primary agonist binding site (e.g., D-2-amino-5-phosphopentanoic acid) or block the associated ion channel (e.g., dizocilpine). This study targeted the glycine receptor site located on the NMDA receptor complex. Chronic intracerebroventricular infusion of the glycine site antagonist 7-chlorokynurenate (7CK; 75 mM, 0.5 microliter/h, icv, for up to 14 days) impaired performance of male Lister hooded rats during acquisition of a spatial reference memory task in the water maze. In addition, however, these animals showed sensorimotor deficits, including a prolonged righting reflex, ataxia, and difficulty in staying on the escape platform. On completion of behavioral testing, the rats were anesthetized with urethane and an attempt was made to induce LTP in the hippocampus ipsilateral to the infusion cannula. Both control and 7CK-infused animals displayed equivalent long-term potentiation (LTP) 60 min posttetanus. A novel analytical technique for assaying drug tissue levels involving high-performance liquid chromotography with fluorescence detection revealed that tissue levels of 7CK in hippocampus were extremely low and unlikely to be sufficient to affect LTP, as observed. These findings neither support nor compromise the LTP/learning hypothesis, but they illustrate some of the problems of using drugs to elucidate the neurobiological mechanisms of learning and memory and the importance of a within-subjects design incorporating behavioral, physiological, and biochemical measures.
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PMID:Intracerebroventricular infusion of the NMDA receptor-associated glycine site antagonist 7-chlorokynurenate impairs water maze performance but fails to block hippocampal long-term potentiation in vivo. 939 88

The goal of the studies described was to evaluate the role of NMDA receptor-mediated glutamate excitotoxicity in the pathogenesis of selective neuronal loss due to thiamine deficiency. Administration of the central thiamine antagonist pyrithiamine to adult male rats resulted in a sequence of neurological symptoms including ataxia and loss of righting reflex followed by convulsions. Prior to the onset of convulsions, neuropathologic evaluation revealed significant neuronal loss in the ventral posterior medial thalamic nucleus. However, in vivo cerebral microdialysis at preconvulsive stages did not demonstrate significant increases of extracellular glutamate in this region and pretreatment with the NMDA receptor antagonist MK801 (1 mg/ kg/12 h, i.p.) did not afford significant neuroprotection. Following the onset of convulsions, microdialysate glutamate concentrations were increased fivefold (P > 0.05) and MK801 treatment resulted in significant attenuation of neuronal loss in some thalamic nuclei. A comparable degree of neuroprotection was afforded by pretreatment with an anticonvulsant dose of diazepam (10 mg/kg/12 h, i.p.) a compound whose action is not NMDA receptor mediated. These findings suggest that NMDA receptor-mediated excitotoxicity is not responsible for early selective neuronal loss in this model of thiamine deficiency encephalopathy and that the neuroprotective effect of MK801 at later stages are at least in part a consequence of its anticonvulsant properties.
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PMID:Evaluation of the role of NMDA-mediated excitotoxicity in the selective neuronal loss in experimental Wernicke encephalopathy. 945 22

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

In order to study the roles of the AMPA and kainate subtypes of non-NMDA glutamate receptors in the processing of persistent nociceptive information, compounds with varying activities at these receptors were examined for effects on the formalin-induced paw-licking behavior in rats. The selective AMPA antagonist, LY300164 and the mixed AMPA/kainate antagonist, NBQX, were compared for their effects on formalin-induced pain behavior. NBQX (3, 10, 20 mg/kg, i.p.), caused antinociception as well as ataxia whereas the selective AMPA antagonist, LY300164 (3,5,10 mg/kg, i.p.), did not cause antinociception at doses that did not produce ataxia. In view of the well documented distribution of kainate receptors on C fibres and of the kainate-preferring iGluR5 subtype on dorsal root ganglia (DRG), we tested a series of three decahydroisoquinolines with different profiles of activity between iGluR5 and AMPA receptors and all without activity on iGluR6, iGluR7 or KA2 subtypes. LY293558 (0.1, 1, 3, 5 mg/kg, i.p.), which had low micromolar affinity for both iGluR5 and 2 caused, like NBQX, both antinociceptive and ataxic effects. However, the selective iGluR5 antagonist LY382884 (5, 10, 30, 100 mg/kg, i.p.), exhibited antinociceptive actions without ataxia while the iGluR2 preferring antagonist LY302679 (5 mg/kg, i.p), caused ataxia but did not produce antinociceptive effects at that dose. These actions were stereoselective since the enantiomeric compounds, LY293559 and LY302680, were ineffective in these tests. The data strongly suggest an involvement of iGluR5 in the processing of nociceptive information.
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PMID:Kainate GluR5 receptor subtype mediates the nociceptive response to formalin in the rat. 968 Feb 56

Neuropsychiatric symptoms of hyperammonaemia include alterations of mood and personality, cognitive impairment, ataxia, convulsions and coma. The nature and severity of CNS dysfunction depend upon the aetiology and degree of hyperammonaemia, its acuteness of onset and the age of the patient. Neuropathological studies reveal Alzheimer type II astrocytosis in the adult hyperammonaemic patient, whereas hyperammonaemia in the infant resulting from congenital urea cycle disorders or Reye syndrome is accompanied by cerebral atrophy, neuronal loss and cerebral oedema. Several electrophysiological and biochemical mechanisms have been proposed to explain the deleterious effects of ammonia on CNS function. Such mechanisms include direct effects of the ammonium ion on excitatory and inhibitory neurotransmission and a deficit in cerebral energy metabolism due to ammonia-induced inhibition of alpha-ketoglutarate dehydrogenase. In addition, ammonia has been shown to interfere with normal processes of uptake, storage and release of various neurotransmitters. Ammonia disrupts monoamine storage, inhibits the high-affinity uptake of glutamate by both astrocytic and neuronal elements and activates 'peripheral-type' benzodiazepine receptors leading to the potential synthesis of neuroactive steroids in brain. On the basis of these actions, it has been proposed that ammonia disrupts neuron-astrocyte trafficking of amino acids and monoamines in brain. The increased formation of brain glutamine in hyperammonaemic syndromes could be responsible for the phenomenon of brain oedema in these disorders. Therapies aimed at either decreasing ammonia production in the gastrointestinal tract or increasing ammonia removal by liver or skeletal muscle are the mainstay in the prevention and treatment of the CNS consequences of hyperammonaemia. New therapeutic approaches aimed at correction of the neurotransmitter and cerebral energy deficits in these syndromes could hold promise for the future.
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PMID:Effects of hyperammonaemia on brain function. 968 41

Riluzole (2-amino-6-trigluoromethoxy benzothiazole) has neuroprotective, anticonvulsant, anxiolytic and anesthetic qualities. These effects are mediated by blockade of glutamate transmission, stabilizing of sodium channels and blockade of gamma-aminobutyric acid (GABA) reuptake. The action profile of riluzole is dominated by its effects on glutamate transmission which are predominately mediated by N-methyl-D-aspartate (NMDA) receptor-linked processes in vitro. In vivo studies show that blockade and stimulation of the different NMDA receptor complex binding sites or AMPA receptors modulate motor behavior in a characteristic manner. It was therefore interesting to examine if blockade of glutamatergic transmission by riluzole induced similar behavioral effects as direct NMDA/AMPA receptor antagonists and if these effects are mediated by a specific receptor. The effects of riluzole alone and in combination with several other neuroactive compounds on the central nervous system was assessed by behavioral paradigms to evaluate sniffing behavior, locomotion, ataxia and rigidity. Accompanying compounds included the NMDA receptor agonist NMDA, the partial glycine site agonist D-cycloserine (DCS), and the alpha-amino-3-hydroxy-5-phenyl-4-isoxazolepropionic acid (AMPA) receptor antagonist GYKI 52466 [1-(4-aminophenyl)-4-methyl-7,8-methylenedioxy-5H-2,3-benzo-diazepine HCl]. Riluzole influenced neither stereotyped sniffing behavior nor locomotion but impaired motor coordination and attenuated rigidity induced by blockade of dopamine D1 and D2 receptor antagonists when given alone. At higher doses spontaneous behavioral activity decreased and motor coordination was more impaired. Augmentation of the riluzole effects were observed when NMDA, but not GYKI 52466, was coadministered. The glycine site agonist DCS increased the anticataleptic properties of riluzole. The results indicate that when given alone, riluzole has a behavioral profile resembling that of competitive NMDA receptor antagonists. However, coadministration of riluzole with NMDA/AMPA receptor ligands suggests that this assumption is incorrect, and that riluzole affects glutamatergic transmission by a more indirect mechanism. Nevertheless, the profile of riluzole together with its pre- and postsynaptic blockade of glutamatergic transmission implies beneficial properties in diseases where an overactive glutamate system induces chronic neurotoxicity and/or acute behavioral effects.
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PMID:Riluzole, a glutamate release inhibitor, and motor behavior. 975 3

Spinocerebellar ataxia is one of the most common neurological disorders. However, few therapeutics are effective for the treatment of this disorder. In the present study, we investigated the efficacy of d-serine ethylester and a related substance, d-cycloserine, as therapeutic agents for ataxia in a murine model. Both compounds are known to stereospecific modulate N-methyl-d-aspartate type glutamate receptors, and impaired glutamate-mediated signaling has been implicated in spinocerebellar ataxia. Using a microdialysis method, we found that intraperitoneal administration of d-serine ethylester increases the extracellular content of endogenous d-serine in the mouse cerebellum for at least 3 h. Maximum elevation of the extracellular d-serine was observed at 40 min after injection. An open-field study was used to assay the effect of the d-serine derivatives on movement and ataxia. In mice exhibiting cytosine arabinoside-induced ataxia, d-serine ethylester reduced the falling index in a dose-dependent manner. The effect of d-serine ethylester was stereo-specific in that l-serine ethylester had no effect on the falling index at the maximum doses tested, and was partially inhibited by 5,7-dichlorokynurenate, an antagonist that binds to the glycine-binding site. Locomotor activity was not changed by the d-serine ethylester treatment. d-cycloserine also significantly reduced the falling index of the mice. Both d-serine ethylester and d-cycloserine had longer lasting effects than other potential therapeutic reagents for ataxia. Growing evidence suggests the essential involvement of endogenous d-serine in mammalian brain function, and our results suggest that d-serine derivatives may represent an effective new therapeutic for the treatment of spinocerebellar ataxia.
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PMID:The stereo-specific effect of D-serine ethylester and the D-cycloserine in ataxic mutant mice. 979 25

The pleiotropic weaver disease is caused by the mutation of a single amino acid in the G-protein-linked inwardly rectifying K+ channel, GIRK2. In homozygous (wv/wv) animals, the disease is characterized by loss of cerebellar and dopaminergic mesencephalic neurons as well as testicular cells, which produce ataxia, fine tremors, and sterility, respectively. Heterozygous (wv/+) animals show no obvious motor impairments, although some loss of both cerebellar and dopaminergic neurons is observed and wv/+ males become sterile at 3.5 months of age. Abnormal influxes of Na+ and Ca2+ have been linked to cerebellar cell death in wv/wv animals, but it's not clear whether similar changes are observed in wv/+ animals. To discover whether changes in K+-channel function or intracellular Ca2+ concentrations ([Ca2+]i) play a role in the augmented cell loss observed in wv/+ animals when compared with +/+ animals, we studied cultured cerebellar granule cells prepared from either wv/+ or +/+ animals. Resting [Ca2+]i was elevated in wv/+ relative to +/+ animals. Further, depolarizations of cells with elevated K+ solutions elicited much smaller changes in [Ca2+]i in wv/+ animals than in +/+ animals, presumably due to altered GIRK2 channel function. Both wv/+ and +/+ cells showed similar changes in [Ca2+]i when cells were depolarized by glutamate (1 mM), suggesting that both glutamate receptors and Ca2+ channels were unchanged in wv/ + animals. In summary, our results suggest that wv/+ cerebellar granule cells exhibit elevated resting [Ca2+]i levels and altered K+-channel function, which may contribute to the developmental abnormalities and increased cell death observed.
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PMID:Altered responses to potassium in cerebellar neurons from weaver heterozygote mice. 986 Feb 68

The aim of this study was to assess whether a drug which combines an antagonistic action at both NMDA and non-NMDA receptors offers advantages for treatment of epileptic seizures compared to drugs which antagonize only one of these ionotropic glutamate receptors. The novel glutamate receptor antagonist LU 73068 (4,5-dihydro-1-methyl-4-oxo-7-trifluoromethylimidazo[1,2a]quinoxal ine-2-carbonic acid) binds with high affinity to both the glycine site of the NMDA receptor (Ki 185 nM) and to the AMPA receptor (Ki 158 nM). Furthermore, binding experiments with recombinant kainate receptor subunits showed that LU 73068 binds to several of these subunits, particularly to rGluR7 (Ki 104 nM) and rGluR5 (Ki 271 nM). In comparison, the prototype non-NMDA receptor antagonist NBQX (2,3-dihydroxy-6-nitro-7-sulphamoyl-benzo[f]quinoxaline) binds with high affinity to AMPA receptors only. Both NBQX and LU 73068 were about equieffective after i.p. injection in mice to block lethal convulsions induced by AMPA or NMDA. In the rat amygdala kindling model of temporal lobe epilepsy, LU 73068 dose-dependently increased the focal seizure threshold (afterdischarge threshold, ADT). When rats were stimulated with a current 20% above the individual control ADT, LU 73068 completely blocked seizures with an ED50 of 4.9 mg kg(-1). Up to 20 mg kg(-1), only moderate adverse effects, e.g. slight ataxia, were observed. NBQX, 10 mg kg(-1), and the glycine/NMDA site antagonist L-701,324 (7-chloro-4-hydroxy-3-(3-phenoxy)phenyl-quinoline-2(1H)one), 2.5 or 5 mg kg(-1), exerted no anticonvulsant effects in kindled rats when administered alone, but combined treatment with both drugs resulted in a significant ADT increase. The data indicate that combination of glycine/NMDA and non-NMDA receptor antagonism in a single drug is an effective means of developing a potent and effective anticonvulsant agent.
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PMID:LU 73068, a new non-NMDA and glycine/NMDA receptor antagonist: pharmacological characterization and comparison with NBQX and L-701,324 in the kindling model of epilepsy. 986 55

Excitotoxicity resulting from the dysfunction of glutamate receptors has been attributed to neurodegeneration seen in many brain disorders. In our laboratory, the spastic Han Wistar mutant is currently utilized as a potential model of excitotoxicity. The mutant is characterized by progressive neuronal degeneration, hindlimb paresis and ataxia which culminates in the animal's death at approximately 65 days of age. In this study, neuroprotection derived from acute administration of the non-NMDA antagonist GYKI 52466, and chronic administration of the non-NMDA antagonist CNQX was examined in order to determine the potential roles of non-NMDA receptors in the observed neurodegeneration. Mutants injected with GYKI 52466 (15 mg/kg), twice a week for 3 weeks, exhibited increased life spans (14%) and extended motor activity than their vehicle-treated mutant siblings. In a separate group of mutants, CNQX (either 50 or 500 microM) was infused directly into the third ventricle of the mutant's brain utilizing osmotic pumps. A statistically significant increase in motor activity (22%) was detected for mutants treated with a dose of 50 microM CNQX compared to their vehicle-treated siblings. Finally, cerebellar histological evaluations of mutants treated with both 50 and 500 microM CNQX showed dose-dependent higher cerebellar Purkinje cell counts. These findings suggest that non-NMDA receptors play a significant role in neurodegeneration in this animal.
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PMID:The neuroprotective effects of non-NMDA antagonists in the cerebellum of the spastic Han Wistar mutant. 1007 5


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