Extracellular concentrations of catecholamines and amino acids in the dorsomedial hypothalamus of kindled rats. A microdialysis study

Epilepsy affects homeostasis and autonomic nervous system functions. It has been thought that the dysfunction in the autonomic neural mechanisms could be a cause of sudden unexpected death in patients with epilepsy. The kindling model of epilepsy is considered to be an animal model for complex partial seizures with secondary generalization. The objectives of this study were to investigate the extracellular gamma-aminobutyric acid (GABA), glutamate, noradrenaline and dopamine levels in the dorsomedial nucleus of the hypothalamus in non-epileptic and kindled epileptic rats and to explain some of the cardiovascular changes in the kindling model of epilepsy. Stimulation electrodes were stereotaxically implanted into the basolateral amygdala and electrical stimulation was applied 3 times a day at a constant current. The rats were then kindled to full stage 5 seizures. Microdialysis experiments were performed to demonstrate the neurotransmitter levels in the dorsomedial nucleus of the hypothalamus 3-5 days after being kindled. Decreases in noradrenaline and dopamine levels in the dorsomedial nucleus were detected in the conscious kindled animals. This finding is in agreement with prior findings that the noradrenergic system has a negative role in the process of kindling. The basal level of glutamic acid and GABA remained unchanged in the kindled group when compared to non-epileptic animals, and similarly, neither blood pressure nor heart rate responses to bicuculline or N-methyl-D-aspartate were affected by the acute kindled state. These findings suggest that the autonomic changes in kindling require further studies.     

Differential changes in induced seizures after hippocampal treatment of rats with an antisense oligodeoxynucleotide to the GABAA receptor γ2 subunit

γ-Aminobutyric acid (GABA) is the principal inhibitory neurotransmitter in the brain. Impairment of GABAergic neurotransmission may be involved in the pathogenesis of epileptic phenomena. We have previously characterized biochemical and histological changes following unilateral intrahippocampal infusion of a phosphorothioate antisense oligodeoxynucleotide to the GABA_A receptor γ2 subunit in rats in vivo. The aim of the present study was to investigate the behavioral changes of rats following unilateral hippocampal antisense ‘knockdown' of the GABA_A receptor γ2 subunit. Antisense, but not mismatch control oligodeoxynucleotide treated rats had a significant weight loss (10%) during 6 d of treatment. Antisense treated rats exhibited no changes in spontaneous behavior, including anxiety-like behavior as measured in the social interaction test, compared to mismatch oligodeoxynucleotide treated rats. However, antisense treated rats developed pronounced changes in induced seizure activity. Seizures induced by subcutaneously injected pentylenetetrazol were markedly accentuated in antisense treated rats compared to treatment naive rats, whereas mismatch treated rats showed a lower seizure score than that of naive rats. Antisense treated rats had a significantly elevated threshold for seizures induced by electrical stimulation in the maximal electroshock seizure threshold test. The results suggest that intrahippocampal infusion of antisense oligodeoxynucleotide to the GABA_A receptor γ2 subunit leads to specific alterations in the sensitivity to induced seizures. The results are viewed as consequences of selective down-regulation of GABA_A receptors and diminished inhibitory neurotransmission in the hippocampus.     

Expression of heat shock protein 70 induced by 4-aminopyridine through glutamate-mediated excitotoxic stress in rat hippocampus in vivo

The intrahippocampal administration of 4-aminopyridine (4-AP) induces epileptic seizures and neurodegeneration, due probably to stimulation of glutamate release from synaptic terminals. We have studied the time course of the neurodegenerative changes produced by 4-AP, perfused through microdialysis cannulas in rat hippocampus, and correlated them with the expression of the inducible heat shock protein 70 (HSP70), detected immunocytochemically. Electroencephalographic seizure activity appeared immediately after the beginning of 4-AP perfusion. The first signs of histological neuronal damage were observed in CA1 and CA3 subfields of the perfused hippocampus 3 h after treatment and progressed until reaching a maximal neuronal loss at 24 h. In 4-AP-treated rats HSP70 was expressed mainly in neurons of the contralateral hippocampus, with a time course and cellular distribution very similar to the neurodegeneration observed in the perfused hippocampus, but no neuronal damage was observed. The N-methyl-D-aspartate (NMDA) receptor antagonists MK-801 and (3-phosphonopropyl)-piperazine-2-carboxylic acid prevented the seizures, the neurodegeneration and the expression of HSP70. These data demonstrate that the 4-AP-induced release of endogenous glutamate overactivates NMDA receptors in the perfused hippocampus and that the resulting neuronal hyperexcitability propagates to the contralateral hippocampus, generating a glutamate-mediated neuronal stress sufficient to induce the expression of HSP70 but not to produce neurodegeneration. These findings provide a useful model for investigating the relationships between neuronal hyperexcitation, neurodegeneration and the role of HSP expression.     

Handling habituation and chlordiazepoxide have different effects on GABA and 5-HT function in the frontal cortex and hippocampus.

In slices of frontal cortex and hippocampus from rats that had been habituated to handling for 21 days, there was significantly less 20 mM K(+)-evoked release of [14C]GABA ([14C]gamma-aminobutyric acid) compared with rats naive to handling. Handling for 21 days also significantly increased the uptake of [14C]GABA into frontal cortex and hippocampus. The change in uptake in the hippocampus was independent of any changes in release and could account for the apparent change in evoked release; in the cortex there were no independent changes in uptake and K(+)-evoked release. When the changes in uptake were taken into account, there were no independent changes in basal release of GABA in either region. HPLC analysis showed the change in uptake was not due to differences between the groups in endogenous GABA concentrations. Acute administration of chlordiazepoxide (CDP 7.5 mg/kg i.p.) to handling naive rats also significantly reduced K(+)-evoked [14C]GABA release from the cortex and hippocampus, but basal release and GABA uptake were unchanged. Neither handling nor CDP administration significantly changed the K(+)-evoked [3H]5-HT release, however, the uptake of 5-HT and its basal release in both regions were both significantly and independently increased in animals habituated to handling, compared with handling naive animals. In the hippocampus, the endogenous 5-HT concentrations were significantly lower in the rats that had received 21 days of handling, compared with handling naive rats. In the cortex the endogenous 5-hydroxyindoleacetic acid concentrations were significantly lower in the group that had been handled for 21 days. Thus both the GABA and 5-HT systems were responsive to handling habituation.     

β-细辛醚对癫痫大鼠脑皮质Glu、GABA、GAD的影响

目的:研究β-细辛醚对慢性点燃癫痫大鼠脑皮质谷氨酸(Glu)、γ-氨基丁酸(GABA)及谷氨酸脱羧酶(GAD)的影响。方法:将大鼠随机分为5组,即β-细辛醚高、中、低(100、50、25mg.kg-1)剂量组,阳性药(苯妥英钠)对照组,阴性(基质)对照组,灌胃给药。以青霉素点燃大鼠慢性癫痫,采用高效液相色谱-荧光法测定脑皮质Glu、GABA的含量,以免疫组化法检测GAD65活性。结果:β-细辛醚能显著降低癫痫大鼠脑皮质Glu、GABA的含量,降低GAD65表达,并呈明显的量效关系。结论:β-细辛醚能减少癫痫大鼠脑内兴奋性氨基酸毒性作用,减轻GABA参与的迟发性神经元损害。     

Changes in cortical amino acids during electrical kindling in rats

The effect of kindling rats by electrical stimulation of the frontal cortex for approx. 3 months on the concentrations of amino acids (taurine, aspartate, glutamate, glutamine and GABA) in the cerebral cortex has been studied, as well as the release of endogenous amino acids from kindled slices of brain in vitro. In these kindled rats, killed 1 week after the last shock, there were no changes in any concentrations of amino acids. However, when cortical slices, prepared from either the control or kindled rats, were stimulated in vitro by exposure to veratrine, more endogenous glutamate and aspartate were released from the kindled tissue than from the control. The neurotransmitter amino acids, glutamate and aspartate, may be involved in the permanent effects of electrical kindling.     

Anticonvulsant and proconvulsant effects of inhibitors of GABA degradation in the amygdala-kindling model

The effects of three drugs, namely gamma-vinyl GABA (vigabatrin), gamma-acetylenic GABA, and aminooxyacetic acid, which increase brain GABA concentrations by irreversible inhibition of GABA degradation, were studied in amygdala-kindled rats. Vigabatrin 800 or 1,200 mg/kg i.p. 4 h after its administration, caused prolongation of behavioural seizures and electrographic afterdischarges recorded from the stimulated amygdala. One to three days after administration it dose dependently reduced seizure severity, seizure duration and afterdischarge duration in most animals. Determination of GABA levels in synaptosomes isolated from 12 brain regions of kindled rats 4 or 48 h after injection of 1,200 mg/kg vigabatrin indicated that the variable effects of this drug at different times after its administration could be related to differences in the time course of nerve terminal GABA increases in selective brain regions such as amygdala and corpus striatum. In contrast to vigabatrin, gamma-acetylenic GABA, 100 mg/kg i.p., reduced seizure severity in kindled rats as early as 4 h after its administration but afterdischarge duration increased significantly on subsequent days. Similar late increases in afterdischarge duration (and limbic seizure activity) after the time of maximum anticonvulsant effect had elapsed were also observed with vigabatrin, which could suggest that the anticonvulsant effect of such drugs is followed by withdrawal hyperexcitability. Aminooxyacetic acid, 20 mg/kg i.p., exerted no significant anticonvulsant effect in kindled rats but prolonged afterdischarge duration in several of the animals studied. The data suggest that GABA-T inhibitors, such as vigabatrin, differ from most antiepileptic drugs previously tested in the kindling model in that they may produce both anticonvulsant and proconvulsant effects at the same dose in the same animal as a function of time after administration.     

The new antiepileptic drugs lamotrigine and felbamate are effective in phenytoin-resistant kindled rats

We evaluated the anticonvulsant efficacy of the antiepileptic drugs (AEDs) lamotrigine (LTG) and felbamate (FBM) in amygdala kindled rats that had been preselected with respect to their response to phenytoin. Anticonvulsant response was tested by determining the afterdischarge threshold (ADT), i.e., a sensitive measure for drug effects on focal seizure activity. By repeated testing with the phenytoin prodrug fosphenytoin, 3 groups of kindled rats were separated: rats in which consistent anticonvulsant effects were obtained (phenytoin responders), rats which showed no anticonvulsant response (phenytoin nonresponders), and rats with variable responses (variable phenytoin responders). The latter, largest group was used to evaluate at which doses LTG and FBM exerted significant anticonvulsant effects on ADT 1 h after i.p. drug administration. Effective doses were then used for drug testing in phenytoin responders and nonresponders. Both LTG and FBM proved to be effective anticonvulsant drugs in the kindling model by markedly increasing the ADT. Seizure severity and duration recorded at ADT currents were hardly reduced, indicating that both drugs predominantly affect induction of focal seizures and not seizure spread from the focus. In phenytoin nonresponders, LTG and FBM significantly increased ADT, which is in line with their proven efficacy in patients with refractory partial epilepsy in whom phenytoin has failed. However, LTG and, more markedly, FBM were clearly more efficacious in increasing ADT in phenytoin responders than in nonresponders, substantiating that the difference in phenytoin response between these groups of kindled rats extends to other AEDs. The data in this study reveal that phenytoin nonresponders are a unique model for the search for new AEDs with improved efficacy in refractory partial epilepsy.     

Occurrence of bicuculline-, NMDA- and kainic acid-induced seizures in prenatally methamphetamine-exposed adult male rats

Stimulant drugs are often associated with increased seizure susceptibility. Inhibitory γ-aminobutyric acid (GABA) and excitatory N-methyl-D-aspartate (NMDA) systems play an important role in the effect of stimulants on epileptic seizures. No studies investigating the effect of prenatal methamphetamine (MA) exposure on seizures are available. In this study, bicuculline (GABA_A receptor antagonist), NMDA (NMDA receptor agonist) and kainic acid (non-NMDA receptor agonist) were used to induce seizures in adult male rats. Three groups of animals were tested in each seizure test: prenatally MA- (5 mg/kg) exposed, prenatally saline-exposed, and absolute controls without any prenatal exposure. In bicuculline-induced seizures, the latency to onset of tonic–clonic seizures was shorter in MA-exposed rats than in controls, but it did not differ from saline-exposed rats. There were no differences in clonic seizure onset between groups. In NMDA-induced seizures, the latency to onset of clonic–tonic seizures was shorter in prenatally MA-exposed rats than in controls; however, the latency to onset of saline-exposed animals did not differ from either MA-exposed or from control rats. There were no differences in seizure susceptibility in kainic acid-induced clonic seizures. There were no differences in seizure incidences or stereotypical behavior in any seizure model. The question remains as to how much the present data demonstrate the effect of prenatal drug exposure on seizure susceptibility per se, and how much they may be explained by the effect of prenatal stress or by other mechanism(s).     

Combination of levetiracetam with sodium selenite prevents pentylenetetrazole-induced kindling and behavioral comorbidities in rats

IntroductionThe pentylenetetrazol (PTZ)-induced kindling model acts through the antagonism of central GABA_A receptors and is one of the most widely used experimental animal models to study the characteristics of seizure development, behavioral manifestations and evaluation of antiseizure effects of existing and new drug candidates.MethodologyIn the current study, we investigated the impact of chronically administered levetiracetam (50 mg/kg) and sodium selenite (Sod.Se: 0.25 and 0.5 mg/kg) alone and in combination during the kindling process (21 days) in rats. Moreover, the behavioral changes (through the integration of a wide array of behavioral tests) and markers of oxidative stress in isolated brain homogenates were assessed in PTZ- kindled rats.ResultsThe outcomes from the fully kindled rats revealed the increased seizure score and severity over time with marked behavioral deficits. However, the animals treated with the selected dose of LEV alone showed partial protection from epileptogenesis and amelioration (P < 0.05) of anxiety-like behavior (open filed, light/dark, elevated plus maze tests), cognitive impairment (y-maze, novel object recognition and water maze tests) and depression (sucrose preference test). Moreover, combining the LEV with sodium selenite resulted in a significant neuroprotective effect in comparison to monotherapy by reducing the disease progression and ameliorating behavioral outcomes. The combination of Sod.Se in a dose-dependent manner with LEV produced additive effects as maximum animals remained seizure-free compared to kindled rats (P < 0.05). The attenuation of PTZ induced oxidative stress was evident from the reduced malondialdehyde and elevated superoxide dismutase (SOD), catalase and glutathione peroxidase (GPx) level with P < 0.05, as compared to control epileptic rats. These observed results of combination therapy might be due to the antioxidant and neuroprotective properties of Sod.Se, thus augmenting the seizure-modifying potentials of levetiracetam.ConclusionOverall, the current findings support the prominence of combining the Sod.Se with LEV, over monotherapy to deal with prevailing challenges of drug resistance and neuropsychiatric sufferings common in epileptic patients.     

Pharmacological investigation of gamma-aminobutyric acid (gaba) and fully-developed generalized seizures in the amygdala-kindled rat

The effects of GABA-modulating drugs were assessed in a pharmacological study of amygdala-kindled seizures in the rat. Fully-kindled subjects were tested with a randomized dose regimen, including drug vehicle, for each of seven drugs. Afterdischarge duration, motor seizure latency, motor seizure duration and motor seizure stage were scored. The GABA synthesis inhibitor, 3-mercaptopro-pionic acid, the GABA antagonist, bicuculline, and the chloride ionophore blocker, picrotoxin, all decreased motor seizure latency, but did not otherwise alter the kindled seizure duration or seizure stage. The inhibitor of GABA metabolism, gamma-vinyl-GABA, and pentobarbital, which competes for the picrotoxin binding site, both antagonized kindled seizures. Gamma-vinyl-GABA, however, did not appear to antagonize kindled seizures by a specific effect on GABA neurotransmission. The GABA agonists, imidazole acetic acid and ¦alpha-(chloro-4'phenyl)fluoro-5-hydroxy-2-benzylidene-amino¦-4-butyramide (SL 76-002), did not alter the kindled seizures. The results of these experiments are not consistent with the hypothesis that kindled seizures result from a loss of GABA-mediated inhibition: however, GABA may have a role in the modulation of kindled seizure activity.     

Benzodiazepine receptor inverse agonist-induced kindling of rats alters learning and glutamate binding

Kindling, recognized as a model of epilepsy, can be obtained by applications of repeated nonconvulsive stimulations that finally lead to generalized seizures. Epileptics often show cognitive impairments. The present work analyzed the learning performance of male Wistar rats kindled with a convulsant inverse agonist of the GABA(A)-benzodiazepine receptor complex, methyl beta-carboline-3-carboxylate (beta-CCM). This compound is also known to have an action on learning processes. It was thus interesting to verify if beta-CCM kindling had the same impairing action on learning as other kindling agents, such as pentylenetetrazol (PTZ). A two-way active-avoidance shuttle-box learning task was chosen, because a deficit was found after PTZ kindling in this learning model. On the other hand, hippocampal glutamate binding, has previously been shown to be modified by both seizures and learning. Thus, the level of glutamate binding was also measured in the present study. Results showed that fully kindled rats had poorer learning performance after the third day of test than controls or not fully kindled animals. L-[3H] glutamate binding to hippocampal membrane fractions of the fully kindled animals was significantly higher when compared with controls, whereas L-[3H] glutamate binding of not fully kindled subjects did not differ from that of controls. Neuronal plasticity changes are a possible explanation for the correlation between kindling, learning deficits, and increased glutamate binding.     

Influence of low dietary histamine on seizure development of chemical kindling induced by pentylenetetrazol in rats

Aim: To determine the role of dietary low histamine on the seizure development of pentylenetetrazol (PTZ)-induced kindling in rats. Methods: After 14d of feeding on a low histamine diet (LH, containing 0.145μmol/g of histamine), the rats were chemically kindled by repeated intraperitoneal injection of a subconvulsant dose of PTZ (35mg/kg) once every 48h, and seizure activity of kindling was recorded for 30min. Histamine in brain samples was analyzed using a high performance liquid chromatography system with a fluorescence spectrofluorometer. Results:The LH diet induced an increase in seizure response (seizure susceptibility) to the first trial of PTZ, and resulted in facilitation of subsequent PTZ kindling process (seizure development). The histamine levels in the cortex, hippocampus, and hypothalamus of LH-treated rats decreased significantly and these changes correlated well with seizure behavior (r=0.875,0.651, and 0.796, respectively). In addition, chronic kindled seizures resulted in a significant increase of the histamine content in the cortex and hypothalamus in the LH-fed groups. Conclusion: These findings indicate that the histamine in daily food could influence the brain histaminergic function, and play an important role in regulating seizure susceptibility.     

Effects of alcohol on kindled seizure thresholds in rats

Seizures were kindled in the amygdala and ventral hippocampus of rats until a stage 5 (clonic convulsion) was elicited. Stage 5 thresholds were then determined. Animals were then injected with either saline, or a 600 mg/kg, or 1600 mg/kg dose of 25% ethanol. The effect of each of these injections on seizure thresholds was assessed. The 1600 mg/kg dose caused a significant elevation in both AD and motor seizure thresholds, relative to the 600 mg/kg dose and saline, which did not differ. The elevation of seizure thresholds was significantly greater for animals with seizures kindled in the ventral hippocampus.     

Regional brain concentrations of cholecystokinin in the rat: the effects of kindled and non-kindled seizures

In an attempt to understand the neurochemical basis of kindling, this study investigated the effects on brain cholecystokinin (CCK) of amygdaloid kindled and non-kindled seizures. Thirteen brain regions were examined in rats sacrificed either 24 hr or 3 weeks after the last kindled seizure, or 24 hr after a suprathreshold stimulation-induced (non-kindled) seizure; and in sham kindled rats. There were no significant differences in CCK immunoreactivity between any of these groups. These results do not confirm a previous report of an increase in CCK in the hippocampus following amygdaloid kindling in the rat.     

The effects of GABA(B) receptor activation on spontaneous and evoked activity in the dentate gyrus of kainic acid-treated rats

Enhancement of GABAergic inhibition is central to the treatment of epilepsy. The role of the GABA(B) receptor, however, is poorly understood. The current study investigates the effects of r-baclofen (a GABA(B) receptor agonist) on spontaneous and evoked electrophysiological activity in the dentate gyrus of normal and epileptic rats in vivo. Administration of kainic acid (KA), which causes similar pathology to that seen in human temporal lobe epilepsy, was used to prepare chronically epileptic rats. Bursts of spontaneous high-amplitude field potentials (spiking) were observed in isoflurane-anaesthetised control and KA-treated rats in vivo; however, this activity was significantly more frequent in KA-treated rats (223+/-26.1 spikes min(-1)) than in control rats (124+/-17.4 spikes min(-1)). Feedback inhibition, measured using paired-pulsed stimulation, was also greater in KA-treated rats; 50% inhibition of the second response was observed at 43.05+/-4.46 ms in KA-treated animals, as opposed to 26.27+/-2.39 ms in control animals. r-Baclofen (10 mg kg(-1) i.v.) abolished spontaneous spiking and also reduced feedback inhibition in both control and KA-treated rats. These effects of r-baclofen may be due to inhibition of GABA release, through activation of pre-synaptic GABA(B) receptors on terminals of interneurones in the inhibitory feedback pathway. These results suggest a link between feedback inhibition and spontaneous spiking, and provide support for the hypothesis that mechanisms of synchronisation may give rise to seizure activity in human temporal lobe epilepsy.     

Effect of kindled seizures on rat behavior in water Morris maze test and amino acid concentrations in brain structures

The effects of kindled seizures elicited by repeated pentetetrazole (PTZ) injections, on learning and memory in the Morris water maze test and on concentration of brain amino acids, were examined in rats. It was found that kindled seizures (a model of temporal lobe epilepsy) produced a profound decrease in learning and memory accompanied by a selective and long-lasting decrease in hippocampal and striatal concentration of glutamate, glycine and alanine in the striatum (ex vivo measurement). The concentrations of histamine, serine and gamma-aminobutyric acid (GABA) were not selectively affected by kindling. Alower concentration of glutamate and N-methyl-D-aspartate (NMDA) receptor co-agonists in the striatum (glycine and alanine) indicates the general malfunction of the brain glutamatergic system. It is suggested that a selective decrease in hippocampal glutamate concentration may account for deterioration in learning and memory processes in kindled rats, considering the important role of this neurotransmitter in the cognitive processes (e.g. in the long-term potentiation), and the key contribution of the hippocampus to the spatial memory. The intrinsic mechanisms of the reported behavioral effects may involve neuronal damage in the brain limbic structures, secondary to seizure-induced ischemia and hypoxia.     

Effects of carbamazepine and valproic acid on brain immunoreactive somatostatin and gamma-aminobutyric acid in amygdaloid-kindled rats

Somatostatin and gamma-aminobutyric acid (GABA) concentrations were evaluated in the brain of kindled rats treated chronically with carbamazepine and valproic acid. Kindled seizures were almost completely blocked by treatment with carbamazepine, whereas the effect of valproic acid was partial, suppressing only generalized seizures. The duration of after-discharge in amygdala was suppressed by carbamazepine not by valproic acid. Carbamazepine induced a decrease in immunoreactive somatostatin concentration and an increase in GABA concentration in the temporal cortex of kindled rats. Valproic acid induced only an increase in GABA concentration. The results suggest that somatostatin may be associated with the suppression of focal seizure in amygdala and GABA may have a role in the suppression of generalized seizures.     

Anticonvulsant effects of the glycine/NMDA receptor ligands D-cycloserine and D-serine but not R-(+)-HA-966 in amygdala-kindled rats.

1. The effects of the glycine/NMDA receptor partial agonists, D-cycloserine and (+)-HA-966 and the full agonist, D-serine, on focal seizure threshold and behaviour have been determined in amygdala-kindled rats, i.e. a model of focal (partial) epilepsy. The uncompetitive NMDA receptor antagonist, MK-801, was used for comparison. 2. The high efficacy glycine partial agonist, D-cycloserine, did not alter the threshold for induction of amygdaloid afterdischarges (ADT) at doses of 20-80 mg kg-1 i.p., but significant ADT increases were determined after application of higher doses (160 and 320 mg kg-1). The ADT increases after these high doses were long-lasting; significant elevations were still observed 2 days after drug injection. Determination of D-cycloserine in plasma and brain tissue showed that it was rapidly eliminated from plasma. Compared to peak levels in plasma, only relatively low concentrations of D-cycloserine were measured in brain tissue. 3. The low efficacy glycine partial agonist, (+)-HA-966, 10-40 mg kg-1 i.p., did not alter the ADT or seizure recordings (seizure severity, seizure duration, afterdischarge duration) at ADT currents. However, the drug dose-dependently increased the duration of postictal behavioural and electroencephalographic depression in kindled rats. At the higher dose tested, postictal immobilization was dramatically increased from 3 min to about 120 min. This might indicate that glutamatergic activity is decreased postictally, which is potentiated or prolonged by (+)-HA-966. 4. Like D-cycloserine, the glycine receptor full agonist, D-serine, injected bilaterally into the lateral ventricles at a dose of 5 mumol, significantly increased the ADT, while no effect was seen at a lower dose (2.5 mumol). 5. The anticonvulsant effects observed with D-cycloserine were completely antagonized by combined treatment with (+)-HA-966, indicating that the effects of D-cycloserine were mediated by the glycine/NMDA receptor complex. 6. MK-801, 0.1 mg kg-1, did not alter the focal seizure threshold or seizure recordings at ADT current, but induced marked phencyclidine(PCP)-like behavioural alterations, such as hyperlocomotion, stereotypies and motor impairment. No PCP-like behaviours were observed after D-cycloserine, D-serine or (+)-HA-966. High doses of (+)-HA-966 induced moderate motor impairment in kindled rats.(ABSTRACT TRUNCATED AT 400 WORDS)