Animal models of the epilepsies

Determining the prognosis of childhood epilepsies by establishing immune abnormalities

When seizures develop in a child, an accurate prediction on outcome of the disorder can hardly be given. Literature indicating an association between seizure disorders and Immunoglobulin (Ig) abnormalities, HLA typing and the occurrence of anti-brain antibodies is shortly reviewed. It is argued that by determining such anti-brain antibodies, early ascertainment of prognosis in seizure disorders may be possible.

Increased methionine-enkephalin levels in genetically epileptic (tg/tg) mice

Recent experimental data indicate that endogenous brain ligands for the opioid receptors such as enkephalins, beta-endorphin (beta-End) and dynorphin (Dyn) may be involved in both generalized and partial seizures. The "tottering" (tg/tg) mouse provides an electrophysiological representation of generalized spontaneous human epilepsy. These mice exhibit behavioral absence seizures with accompanying spike-wave discharges. Methionine-enkephalin (M-Enk), beta-End and Dyn levels in various regions of brain were measured by radioimmunoassay (RIA) in 15-18-week-old tg/tg and control (+/+) mice to elucidate the relation between seizures and the opioid system. beta-End and Dyn levels were similar in tg/tg and +/+ mice. However, M-Enk levels were significantly increased in the striatum, cortex, pons and medulla of the tg/tg mice. Our data suggest that in the tottering mouse model of generalized epilepsy there is an alteration of enkephalinergic pathways and not of the endorphinergic or dynorphinergic pathways.

The effect of pain on pentylenetetrazol induced seizures

Repeated administrations of subconvulsive doses of pentylenetetrazol (PTZ) leads to frank convulsions. The number of injections required to bring about such an effect is taken as an index of seizure vulnerability, and was studied in normal rats. This study examined the effect of pain induced by formaline injection or placement on a hot plate on seizure elicitation. The results could be accounted for by the role of arousal and/or endogenous opiates that are generated by the pain induction procedures, wherein the pain appears to provide some elevation of the threshold for seizure vulnerability.

Changes in seizure latency correlate with alterations in A1 adenosine receptor binding during daily repeated pentylentetrazol-induced convulsions in different mouse brain areas

The seizure latency changed during daily pentylentetrazol (PTZ) induced convulsions showing an increase between days 2 and 4, a rapid decrease between days 5 and 10 and a slight increase again between days 11 and 14. At the respective timepoints, [3H]CHA binding, in cortex and cerebellum of PTZ treated animals followed exactly the same pattern, suggesting that the alterations in A1 receptors in these areas may partly determine the PTZ seizure latency curve. On the contrary, the changes of [3H]CHA binding in hippocampus (sustained increase) and striatum (sustained decrease) didn't follow the latency curve pattern. These results suggest that changes in A1 receptor density in specific brain areas may be involved in the modulation of seizure susceptibility.

The effect of ofloxacin and ciprofloxacin on pentylenetetrazol-induced convulsions in mice

There have been several reports that convulsions, although rare, occur in patients who received fluoroquinolones. In this study, conducted for the evaluation of the convulsant action of fluoroquinolones, the effect of ofloxacin and ciprofloxacin on pentylenetetrazol-induced convulsions were investigated in mice. Mice were pretreated intraperitoneally (IP) with saline, ofloxacin (20 or 80 mg/kg) or ciprofloxacin (20 or 80 mg/kg) 30 minutes before subcutaneous (SC) administration of pentylenetetrazol (40 or 60 mg/kg). In another experiment, diazepam (5 mg/kg) was injected (IP) in mice alone or in combination with ofloxacin (80 mg/kg) 30 minutes before pentylenetetrazol (40 mg/kg) administration (SC). In each experiment mice were observed over the following hour for the incidence and onset of clonic convulsions. Results showed that both doses of ofloxacin increased the incidence of clonic convulsions induced by 40 mg/kg pentylenetetrazol. This effect, however was only significant in the higher dose and inhibited by diazepam. On the other hand, a similar proconvulsant effect by ciprofloxacin could not be demonstrated.

Characterization of tiagabine (NO-328), a new potent and selective GABA uptake inhibitor

Tiagabine (NO-328) (R(-)-N-[4,4-bis(3-methylthien-2-yl)but-3-enyl]nipecotic acid, hydrochloride) is a new centrally acting GABA uptake inhibitor. The anticonvulsant activity of tiagabine was evaluated against seizures induced by methyl 6,7-dimethoxy-4-ethyl-beta-carboline-3-carboxylate (DMCM), pentylenetetrazol, bicuculline, maximal electrostimulation (MES), or high intensity sound. The sedative actions of tiagabine were evaluated in tests for traction, rotarod performance and exploratory behavior. Finally, interoceptive properties of tiagabine were assessed using diazepam-, CGS 9896-, pentylenetetrazol-, or amphetamine-discriminating rats. Tiagabine was an effective anticonvulsant in doses which did not produce sedation or motor debilitation, although it was not potent against MES. In a manner similar to other anti-epileptic drugs, tiagabine potentiated dopaminergic function (methylphenidate-induced gnawing in mice) although it did not substitute for amphetamine in amphetamine-trained animals. Furthermore, although tiagabine antagonized DMCM-induced convulsions, it exhibited neither CGS 9896 or diazepam-like interoceptive effects, nor did it block (or potentiate) pentylenetetrazol-discrimination. Thus, GABA uptake inhibition represents a novel rationale for a valproate-like anticonvulsant drug therapy.

Changes in seizure activity of the neocortex during the early postnatal development of the rat: an electrophysiological study on slices in Mg(2+)-free medium

NMDA receptor-mediated process of rat neocortex slices prepared from 2-24-day-old rats were studied in Mg(2+)-free solution. The response to NMDA application as well as the susceptibility to epileptiform discharges showed age-dependent changes during the first 4 weeks. Slices from the youngest age group seemed to be the most sensitive to NMDA, whereas epileptic activity developed most readily at around the third week.

Alterations of A1 adenosine receptors in different mouse brain areas after pentylentetrazol-induced seizures, but not in the epileptic mutant mouse 'tottering'

Single and repeated Pentylentetrazol (PTZ)-induced convulsions are associated with significant changes of A1 adenosine receptors (detected using the radioligand [3H]cyclohexyladenosine, [3H]CHA) in 4 different brain areas of the mouse, namely cortex, hippocampus, cerebellum and striatum. In hippocampus and cerebellum, a rapid increase in [3H]CHA binding, by 26% and 30% respectively, was observed 1 h after a single PTZ convulsion. In striatum, on the contrary, a significant decrease by 30% in [3H]CHA binding was seen, whereas in cortex no significant change could be detected. After daily repeated PTZ convulsions, a significant increase of A1 receptors by 26% appeared also in cortex, while the changes of A1 receptors observed in the other brain areas after a single PTZ convulsion were maintained in almost the same range. All the alterations observed were due to changes of the total number of A1 receptors (Bmax) without changes in receptor affinity (Kd). A significant increase in the latency of PTZ seizure (time between the PTZ-injection and the beginning of the seizure) was also observed after repeated PTZ-induced convulsions at the time when the changes in A1 adenosine receptors were noted. Considered together, these results provide further evidence for an A1 receptor-mediated modulation of seizure susceptibility and indicate that specific brain areas may play different roles in this modulation. The binding of [3H]CHA to membranes from different cortical and subcortical areas of the epileptic mutant mouse 'tottering' was not different from that in control animals.

New strains of seizure-prone mice

The origins of two new strains of seizure-prone mice are provided, and some of their behavioral characteristics are described. Comparison of the hippocampal granule cell layer of one of the new strains with the two inbred strains from which it was derived revealed strain differences in the diameter of granule cell nuclei and in the number of granule cells in the suprapyramidal blade. Basket cell counts did not differ between the strains, but both basket cell and granule cell number were consistently higher for the suprapyramidal blade than for the infrapyramidal blade. The existence of these and other blade differences suggests that the two blades will prove to be functionally distinctive neuronal systems.

Glutathione levels in specific brain regions of genetically epileptic (tg/tg) mice

The tottering (tg/tg) mouse is a genetic model of human generalized epilepsy; these mice exhibit spontaneous absence seizures accompanied by bilaterally synchronous spike-wave discharges (6). The mechanism(s) for seizure activity are unknown in these mice. Several recent studies have suggested that membrane lipid peroxidation may be causally involved in some forms of experimentally induced epilepsies (18). Since reduced glutathione (GSH) is the most important free radical scavenging compound in vivo that can prevent membrane lipid peroxidation, the objective of this study was to investigate GSH concentrations in specific central nervous system regions of genetically epileptic, tg/tg, mice as compared to age-matched controls. Three brain regions, cerebellum, hippocampus, and occipital cortex, were dissected, weighed and the concentrations of reduced and oxidized glutathione (GSH and GSSG, respectively) were measured in each of these tissues. GSH content was significantly lower in the occipital cortex of tg/tg mice compared to controls; no differences were observed in the other two brain regions examined. Total GSH content (GSH plus 2 x GSSG) paralleled GSH concentration differences. GSSG content from tg/tg mice was lower in the hippocampus and occipital cortex, compared to controls. This is the first report of an association between decreased central nervous system glutathione concentrations and seizure activity in animals exhibiting generalized seizures.

Experimental epilepsy: electrically and chemically induced convulsions modulate experimental allergic encephalomyelitis and other immune inflammatory reactions in the rat

Male Wistar rats were exposed to electroconvulsive shock (ECS) and pentylentetrazol (PTZ) for a period of 38 consecutive days; 21 days before and 17 days after immunization with guinea pig spinal cord in complete Freund's adjuvant (CFA) ECS and PTZ completely prevented the appearance of paralysis and decreased incidence and severity of lesions characteristic of experimental allergic encephalomyelitis, when compared to control sham-shocked and saline-treated rats. Delayed hypersensitivity skin reactions to old tuberculin and inflammatory enlargement of the foot injected with CFA were significantly reduced in ECS rats, but not in PTZ animals. The results indicate that decreased cellular immune responses in rats are due to the electrically and chemically induced experimental epilepsy. The immunoneuroendocrine pathways by which ECS and PTZ suppress the immune inflammations remains to be elucidated.