Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0036572 (seizures)
 80,221 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Approximately 30% of a breeding colony of Sprague-Dawley rats homozygous for an autosomal recessive mutation mf ("mutilated foot") associated with a peripheral sensory neuropathy have been found unexpectedly to suffer spontaneous epileptiform attacks. Seizures ranged from brief episodes of compulsive running to tonic-clonic convulsions lasting for up to 30 s, recurring at intervals of hours or days. EEG recordings during seizures showed high-voltage 8-10 Hz spike trains that abated over the ensuing 1-2 min. Interictal records were usually normal. Twice-daily kindling of the amygdala (200 microA sinewave for 1.0 s) was unexpectedly ineffective. Most of the rats that had suffered spontaneous seizures failed to develop kindled afterdischarges, even after 30 kindling stimulations. Other mf rats developed prolonged high-amplitude kindled afterdischarges that were arrested at stage 2 and failed to evolve into convulsive seizures. Hippocampal dentate granule cells of kindled mf rats, stained for zinc by Timm's method, showed significantly less mossy fibre sprouting than wild-type Sprague-Dawley rats after the same number of kindled afterdischarges. A minority of the mf rats tested (2 of 14) kindled normally. Auditory stimulation (n = 23) or stroboscopic flicker (n = 14) failed to elicit seizures or running fits in any mf rat. Peripheral neuropathy corresponding to that in the mf rat, with resistance to kindling and diminished mossy fibre sprouting, have also been reported in transgenic mice with defective p75NGFR neurotrophin receptors. A homologous genetic defect in the rat could account for most of the features of the mf phenotype.
 ...
PMID:Spontaneous epileptiform seizures but increased resistance to kindled seizures in a mutant Sprague-Dawley rat (mf/mf). 940 5

Zinc is an essential catalytic or structural element of many proteins, and a signaling messenger that is released by neural activity at many central excitatory synapses. Growing evidence suggests that zinc may also be a key mediator and modulator of the neuronal death associated with transient global ischemia and sustained seizures, as well as perhaps other neurological disease states. Manipulations aimed at reducing extracellular zinc accumulation, or cellular vulnerability to toxic zinc exposure, may provide a novel therapeutic approach toward ameliorating pathological neuronal death in these settings.
 ...
PMID:Zinc and brain injury. 953 May

Adequate, high and deficient dietary levels of zinc (Zn) were compared in seizure-susceptible EL mice with respect to convulsions and to nicotinamide adenine dinucleotide phosphate (NADPH) diaphorase-positive hippocampal neurons. Diaphorase positivity is associated with nitric oxide (NO) production. Convulsive seizures in the EL mice given the various diets did not differ over 1-4 weeks, but convulsions in EL mice given the Zn-deficient diet for 4 weeks were more effectively suppressed by injection of zonisamide (ZNS) (75 mg/kg intraperitoneally) than in mice receiving high- or adequate-Zn diet for the same period. Numbers of NADPH diaphorase-positive neurons in the CA1/CA2 region of the hippocampal formation were significantly higher in mice given the Zn-deficient diet for 4 weeks than in mice fed adequate Zn. Mice receiving the high-Zn diet for the same period had significantly fewer NADPH diaphorase-positive neurons in the subiculum than mice with adequate Zn. These results suggest that Zn deficiency inhibits convulsive seizures of EL mice, and that dietary Zn influences numbers of NO producing neurons in the hippocampal formation.
 ...
PMID:Influence of dietary zinc on convulsive seizures and hippocampal NADPH diaphorase-positive neurons in seizure susceptible EL mouse. 957 68

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.
 ...
PMID:Alterations of metallothionein II and apolipoprotein J mRNA levels in kainate-treated rats. 959 52

Prolonged seizures in the adult brain causes neuronal loss in the hippocampus and aberrant growth (sprouting) of granule cell axons (mossy fibers) in the supragranular zone of the fascia dentata and stratum infrapyramidale of CA3. There is considerable evidence that these changes in neuronal growth following seizures are age related, with younger animals having fewer reactive changes following prolonged seizures than older animals. However, there is little information available regarding the age at which seizures in the developing brain result in alterations in axonal growth and synapse formation. In this study, we evaluated the effects of kainic acid (KA)-induced seizures during development on synaptic reorganization using the expression of growth-associated protein-43 (GAP-43), a marker for synaptogenesis and Timm stain which detects the presence of zinc in granule cell axons. Age specific doses of KA were used to induce seizures of similar intensity at various ages (postnatal days (P) 12, 21, 25, 35, 45, 60) in Sprague-Dawley rats. Up to the age of P25, there were no differences in either Timm or GAP-43 staining between animals with KA seizures and controls. In P25 and older KA-treated rats, Timm staining was found in the supragranular layer of the dentate gyrus. This staining increased with age at the time of KA injection. Seizures in adult (P60), but not younger rats also resulted in increased staining in the suprapyramidal layer of the CA3 subfields. Changes in GAP-43 were delayed compared to the Timm staining with no differences between KA-treated animals and controls until P35 when a band of GAP-43 immunostaining appeared in the supragranular inner molecular layer, progressively increasing in intensity and thickness with time. This study demonstrates that seizure-induced reactive synaptogenesis is age-related. Since both Timm and GAP-43 reflect different aspects of reactive synaptogenesis, used in combination these methods provide useful information about the structural changes following seizures during development.
 ...
PMID:Synaptic reorganization following kainic acid-induced seizures during development. 959 78

Abnormal metabolism of metal ions such as zinc may contribute to neuropathology. Complexing zinc could reduce this pathology. Thus, to examine the effectiveness of metal chelating agents in vivo, a model system was used. This involved determining the ability of chelating agents to prevent neuronal death caused by zinc chloride injected into the rat hippocampus. Significant protection against zinc toxicity was obtained with pyrithione, inositol hexakisphosphate, ethylenediamine tetraacetate (EDTA) and N,N,N',N'-tetrakis(2-pyridylmethyl)ethylenediamine (TPEN). The affinity of these agents for zinc varied between 106 M-1 and 1018 M-1. Thus, the affinity for zinc within this range does not appear to be a major factor affecting the ability of chelators to provide neuroprotection. While almost complete protection was found with EDTA and TPEN given simultaneously with zinc chloride, poor protection was obtained if TPEN was given before or after zinc chloride. Other agents either did not protect against zinc-induced neuronal death (zincon), or exacerbated zinc toxicity (BTC-5N and about 40% of rats injected with a combination of zinc chloride and diethylenetriamine pentaacetate [DTPA]). Rats showing increased damage after zinc plus BTC-5N or DTPA suffered wet dog-like shakes (WDS), suggesting that these zinc chelate complexes can induce seizures resulting in seizure-related damage. In contrast, in the 60% of rats treated with zinc chloride and DTPA that had no WDS, there was about an 80% reduction in the size of the zinc-induced lesion. The ability of chelators to cross cell membranes was examined by determining whether Timm's staining for vesicular zinc was reduced following the injection of a chelator into the hippocampus. TPEN and pyrithione reduced Timm's staining for zinc. However, cell permeability was not necessary for a chelator to protect against zinc toxicity.
 ...
PMID:Diverse effects of metal chelating agents on the neuronal cytotoxicity of zinc in the hippocampus. 966 92

The ability of metal chelating agents to affect seizure-induced neuronal death caused by intra-amygdaloid injections of kainic acid was investigated. N,N,N',N'-tetrakis(2-pyridylmethyl)ethylenediamine (TPEN), diethyldithiocarbamate (DEDTC) and diphenylthiocarbazone (dithizone), administered simultaneously or within 30 min of a kainate injection, all failed to affect the amount of neuronal loss in the ipsilateral hippocampus. This failure was not due to an inability to complex endogenous zinc as all these chelating agents quenched staining for endogenous zinc by the Timm method. However, the period for which this quenching occurred was short for DEDTC and dithizone (a maximum of 1.5 h) although it lasted for 8 h with TPEN. TPEN, but not DEDTC or dithizone prevented the neuronal loss caused by intra-hippocampal injections of zinc chloride. In the presence of diazepam to prevent seizures, co-injection of TPEN and kainate into the hippocampus also failed to prevent the direct cytotoxicity of kainate. Endogenous zinc, released from mossy fibres in the hippocampus by seizure activity, does not appear to modify seizure activity sufficiently to alter the extent of the resulting neuronal death.
 ...
PMID:Effect of metal chelating agents on the direct and seizure-related neuronal death induced by zinc and kainic acid. 966 95

While zinc is essential for health, it has also been implicated in the neuropathology of several disease states such as Alzheimer's disease, epilepsy and cerebral ischemia. Recent studies have shown that oxidative and nitrosylative stresses can liberate zinc from metalloproteins in vitro. Thus, nitric oxide (NO.), a radical molecule which serves as a retrograde messenger, was studied for its effects on the in vivo accumulation of zinc in neurons. Three NO. -donors, sodium nitroprusside (SNP; >/=5 nmol), spermine-nitric oxide complex (SPER-NO; </=200 nmol), and 3-morpholino-sydnonimine (SIN-1; </=200 nmol) were administered into the dorsal hippocampus of rats. Brain tissue was stained by both the Timm's method, and with N-(6-methoxy-8-quinolyl)-para-toluenesulfonamide (TSQ), a histochemical stain for metal ions and a selective fluorescent probe for zinc ions, respectively. A sporadic pattern of zinc accumulation within the perikarya, axons, and dendritic processes of certain pyramidal neurons, interneurons, and dentate granule cells was found 2 h after administrations of SNP and SPER-NO, but not with SIN-1. With SNP, sporadic perikaryal zinc staining of the pyramidal neurons and interneurons at strata oriens (SO), pyramidale (SP), and radiatum (SR) was consistently observed, but with SPER-NO, the granule cells of the dentate gyrus were preferentially stained. Administration of sodium ethylenediamine tetraacetic acid (NaEDTA, 10 nmol) 10 min before SNP resulted in a marked reduction of sporadic perikaryal zinc staining in the SO and SR. The more selective metal chelator, N,N,N', N'-tetrakis(2-pyridylmethyl)ethylenediamine (TPEN, 10 nmol) injected 10 min before SNP abolished the staining of neuronal perikarya and surrounding neuropil. In addition, SNP, but not SPER-NO, induced convulsive activity. Groups of rats that manifested continuous wet dog shakes and/or generalized convulsions for at least 4-5 h after SNP were found to have generalized perikaryal Timm's staining of all neurons in the pyramidal cell layer of the subicular and cornu ammonis regions, similar to the staining found after seizures induced by kainic acid. However, after kainic acid-, but not SNP-induced seizures, Timm's staining of neuronal perikarya in the piriform cortex and amygdala was also observed. This is the first evidence that NO. can induce accumulation of zinc in neuronal perikarya and processes in the hippocampus in vivo. As a mechanism underlying the possible involvement of zinc in neurodegenerative disorders caused by excitotoxicity and/or oxidative stress, it is an alternative to release of synaptic vesicle zinc and uptake by damaged hippocampal neuronal perikarya.
 ...
PMID:Nitric oxide generators produce accumulation of chelatable zinc in hippocampal neuronal perikarya. 966 98

Dimethylsulfoxide (DMSO) formed a ternary complex when mixed with a Zn-3, 5-diisopropylsalicylate complex of unknown structure. The structure of this new ternary complex was characterized in an initial effort to understand the nature of this compound. Since the original complex is known to have anticonvulsant activity, the new ternary complex was also examined for anticonvulsant activity. The original complex was examined for inhibition of the polymorphonuclear leukocyte (PMNL) respiratory burst in an effort to mechanistically account for zinc complex mediated anticonvulsant activity. Dissolving the structurally unknown complex in DMSO gave crystals of a characterizable complex with an empirical formula C30H46O8S2Zn. Crystallographic data: P 1, Z = 2, a = 8.06(1), b = 12.452(2), c = 17.951(2) A, alpha = 74.42(l), beta = 77.07(1), gamma = 89.50(1) degree. The structure was refined to R = 0.03, RW = 0.04 for 3815 independent reflections with I > 2 sigma(I). This complex is mononuclear, with two 3,5-diisopropylsalicylate ligands and two bonded DMSO ligands, Zn(II)(3,5-DIPS)2(DMSO)2, Zn(II) is coordinate covalently bonded to four O atoms in a strongly distorted tetrahedral arrangement. Each DMSO ligates via its sulfoxide O atom while each 3,5-diisopropylsalicylate ligand is monodentate The non-ligating carbonyl O atom of each 3,5-DIPS is free except for an intramolecular hydrogen bond from the hydroxy group of the same ligand. Both 3,5-DIPS acid and Zn(II)(3,5-DIPS)2(DMSO)2 were examined for anticonvulsant activity in the Maximal Electroshock (MES) and Metrazol (MET) models of seizures and found to prevent both types of seizures. The Zn complex was qualitatively and quantitatively more effective than treatment with the free ligand. The influence of a Zn 3,5-DIPS complex and of the ligand 3,5-DIPS on PMNL oxidative metabolism was also studied to help understand the mechanism of anticonvulsant activity of these compounds. A dose-related and significant decrease in chemiluminescent (CL) response to opsonized Zymosan was observed, and the Zn complex was significantly more effective than the free ligand. It is concluded that mononuclear Zn complexes have anticonvulsant activity in Grand Mal and Petit Mal models of seizure possibly due to inhibition of the synthesis of superoxide or down-regulation of Nitric Oxide Synthase in activated phagocytic cells of the central nervous system.
 ...
PMID:Crystal structure of 180 degree K of bis-3, 5-diisopropylsalicylatobisdimethylsulfoxidozinc(II) and the inhibition of seizures and polymorphonuclear leukocyte chemiluminescence. 966 72

The mammalian amygdaloid complex is densely innervated by zinc-containing neurons. The distribution of the terminals throughout the region has been described, but the origins of these zinc-containing fibers have not. The present work describes the origins of one major component of the zinc-containing innervation of the amygdaloid complex, namely, the component that innervates the corticomedial complex. Selective labeling of zinc-containing axons was accomplished by intracerebral microinfusion of selenium anions (SeO3(2-)), a procedure that produces a ZnSe precipitate in zinc-containing axonal boutons with subsequent retrograde transport to the neurons of origin. After infusions of SeO3(2-) into combinations of cortical, medial, or amygdalohippocampal regions, retrogradely labeled zinc-containing somata were found in all amygdaloid nuclei except for the medial and central nuclei, the bed nucleus of the accessory olfactory tract, the nucleus of the lateral olfactory tract, and the anterior amygdaloid area. Extrinsic zinc-containing projections to the same amygdaloid terminal fields were found to originate from the infralimbic, cingulate, piriform, perirhinal and entorhinal cortices, and from the prosubiculum and CA1. Commissural zinc-containing projections were found to originate from the posterolateral and posteromedial cortical nuclei and from the posterior part of the basomedial nucleus. Zinc-containing neurons have been implicated in the pathophysiology of epilepsy, in cell death after seizure or stroke, and in Alzheimer's disease, all clinical conditions that involve the amygdaloid complex. Identification of the zinc-containing pathways is a prerequisite to the elucidation of zinc's role in these disorders.
 ...
PMID:Zinc-containing afferent projections to the rat corticomedial amygdaloid complex: a retrograde tracing study. 977 42


<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>