Increased seizure susceptibility in mice lacking metabotropic glutamate receptor 7.

To study the role of mGlu7 receptors (mGluR7), we used homologous recombination to generate mice lacking this metabotropic receptor subtype (mGluR7(-/-)). After the serendipitous discovery of a sensory stimulus-evoked epileptic phenotype, we tested two convulsant drugs, pentylenetetrazole (PTZ) and bicuculline. In animals aged 12 weeks and older, subthreshold doses of these drugs induced seizures in mGluR7(-/-), but not in mGluR7(+/-), mice. PTZ-induced seizures were inhibited by three standard anticonvulsant drugs, but not by the group III selective mGluR agonist (R,S)-4-phosphonophenylglycine (PPG). Consistent with the lack of signs of epileptic activity in the absence of specific stimuli, mGluR7(-/-) mice showed no major changes in synaptic properties in two slice preparations. However, slightly increased excitability was evident in hippocampal slices. In addition, there was slower recovery from frequency facilitation in cortical slices, suggesting a role for mGluR7 as a frequency-dependent regulator in presynaptic terminals. Our findings suggest that mGluR7 receptors have a unique role in regulating neuronal excitability and that these receptors may be a novel target for the development of anticonvulsant drugs.

Epilepsy, hyperalgesia, impaired memory, and loss of pre- and postsynaptic GABA(B) responses in mice lacking GABA(B(1)).

GABA(B) (gamma-aminobutyric acid type B) receptors are important for keeping neuronal excitability under control. Cloned GABA(B) receptors do not show the expected pharmacological diversity of native receptors and it is unknown whether they contribute to pre- as well as postsynaptic functions. Here, we demonstrate that Balb/c mice lacking the GABA(B(1)) subunit are viable, exhibit spontaneous seizures, hyperalgesia, hyperlocomotor activity, and memory impairment. Upon GABA(B) agonist application, null mutant mice show neither the typical muscle relaxation, hypothermia, or delta EEG waves. These behavioral findings are paralleled by a loss of all biochemical and electrophysiological GABA(B) responses in null mutant mice. This demonstrates that GABA(B(1)) is an essential component of pre- and postsynaptic GABA(B) receptors and casts doubt on the existence of proposed receptor subtypes.

Blockade of GABAB receptors accelerates amygdala kindling development.

The aim of this study was to investigate the putative role of GABAB receptors in the development of amygdala kindling in rats. The effects of the GABAB blocker CGP 35348 and the GABAB agonist baclofen on the progressive development of behavioural seizure symptoms (stages 1-5 classified by Racine) and duration of after-discharges (AD) were studied. CGP 35348 at a dose of 300 mg/kg i.p., which blocks central GABAB receptors, moderately but consistently accelerated the development of behavioural seizure symptoms. CGP 35348 had no marked effect on the duration of ADs corresponding to the different seizure stages. L-baclofen (6 mg/kg i.p.) had a dual effect on kindling development. It retarded the development of the behavioural symptoms, but increased the duration of AD. In conclusion, the results suggest that synaptically-released GABA activated GABAB receptors and thereby exerted a depressant effect on kindling development.

The competitive NMDA receptor antagonists CGP 37849 and CGP 39551 are potent, orally-active anticonvulsants in rodents.

Anticonvulsant properties of CGP 37849 and CGP 39551, two novel phosphono-amino acids which are competitive NMDA receptor antagonists, were examined in rodents. At optimal pretreatment times CGP 37849 suppressed electroshock-induced seizures in mice and rats with ED50s ranging from 8 to 22 mg/kg after oral administration, and 0.4 to 2.4 mg/kg after i.v. and i.p. injection. Relative to CGP 37849, CGP 39551 was more potent after p.o. (ED50 3.7-8.1 mg/kg), and less potent after i.v. or i.p. treatment (ED50 2.7-8.7 mg/kg). Following oral treatment, the duration of action of CGP 37849 was about 8 h, while CGP 39551 still showed good activity after 24 h (ED50 8.7 mg/kg, mouse; 21 mg/kg, rat). Both compounds were anticonvulsant at doses below those at which overt behavioural side effects were apparent. CGP 39551 delayed the development of kindling in rats at doses of 10 mg/kg p.o. and above, and showed weak anticonvulsant activity against pentylenetetrazol-evoked seizures. CGP 37849 and CGP 39551 are the first competitive NMDA antagonists to show oral anti-convulsant properties in a therapeutically-useful dose-range, and hence are interesting candidates for novel antiepileptic therapy in man.

Evaluation of the anticonvulsant and biochemical activity of CGS 8216 and CGS 9896 in animal models.

CGS 8216, a benzodiazepine-receptor ligand with inverse agonistic properties, and CGS 9896, which possesses partial agonistic or mixed agonist-antagonist properties were compared in a number of epilepsy models. The effect of CGS 9896 on the decrease in GABA levels induced by isoniazid was also investigated. CGS 9896 inhibited the kindling process in rats in that it delayed the development of overt seizures and the increase in the duration of afterdischarges. In a genetic rat model characterized by absence-like EEG patterns, CGS 9896 dose-dependently suppressed these spontaneously occurring discharges, while CGS 8216 had no effect. However, CGS 8216 antagonized the anticonvulsant action of CGS 9896. CGS 9896 protected mice against seizures induced by beta-vinyllactic acid, whereas CGS 8216 shortened the latency period before convulsions occurred. CGS 9896 retarded the onset of convulsive fits caused by isoniazid without preventing the decrease in GABA levels produced by that drug. These results confirm the anticonvulsant activity of CGS 9896 and demonstrate the inverse agonistic activity of CGS 8216. The profile of CGS 9896 in the above tests suggests that it might be an effective anticonvulsant, primarily in absence-type seizures.

Inhibition or enhancement of kindling evolution by antiepileptics.

The influence of antiepileptics on the evolution of rat amygdaloid kindling was studied. Under placebo conditions clonic convulsions and a spike-wave EEG pattern developed. Diazepam, clonazepam, clobazam and phenobarbital were most effective in suppressing the evolution of kindling; the effects of valproate sodium, ethosuximide and acetazolamide were somewhat less pronounced in this respect. Carbamazepine, oxcarbazepine and phenytoin, on the other hand, enhanced kindling development, i.e. the increase in duration of after-discharge was faster than in the placebo group. The results indicate that under the above experimental conditions drugs with no anti-absence component can be distinguished from those with an anti-absence component. The mechanism of action underlying the observed effects is not yet known; the hypothesis that under special conditions protective inhibitory neuronal activity can develop to absence type seizures is proposed.

Cholinomimetics induce theta rhythm and reduce hippocampal pyramidal cell excitability.

The actions of cholinomimetics and of physostigmine were tested on two parameters reflecting hippocampal activity, namely theta activity and pyramidal cell excitability. In rats pretreated with methylscopolamine and anaesthetized with urethane i.v. administration of the cholinomimetics oxotremorine and arecoline and the cholinesterase blocker physostigmine evoked theta wave activity in the hippocampus, which was blocked by scopolamine. Spectral analysis demonstrated that the frequency of the theta waves induced was dose-related, ranging from about 3 Hz to between 5 and 6 Hz. theta Activity could not be induced by arecoline in animals with large septal lesions. Pyramidal cell excitability is known to be increased by endogenous acetylcholine released from cholinergic fibres. In the present study, however, i.v. injections of oxotremorine, arecoline and physostigmine in doses that induce theta activity diminished the excitability of CA1 pyramidal cells in a dose-dependent manner, as judged by the reduction in the amplitude of the population spike and the dendritic epsp. These depressant effects were attenuated by scopolamine but not by methylscopolamine. The depressant effect of arecoline was attenuated in rats with extensive lesions in the medial septal area. The present findings demonstrate that exogenously administered cholinomimetics only partly mimic the action of endogenous acetylcholine in the hippocampus. The central sites of action of exogenously administered cholinomimetics for mediation of theta activity and alteration of pyramidal cell excitability remain to be elucidated.

Pharmacological and neurochemical aspects of kindling.

Rats implanted with amygdaloid stimulating and cortical recording electrodes were kindled by daily low-intensity electrical stimulation. In one experiment amino acid concentrations were measured in amygdala, cortex and hippocampus at behavioural stages 1, 2 and 4 (Racine). Control groups consisted of unstimulated rats. Only alanine showed a significant enhancement of concentration in the kindled rats (stage 4 of Racine). In a second experiment, a group of rats was treated daily with 10mg/kg p.o. of diazepam. Diazepam significantly inhibited kindling and no changes in amino acid concentrations were observed in this group. Increased alanine levels are seen after various seizure types; since pentetrazole, isoniazid and beta-vinyllactic acid seizures were associated with alanine level increases only after and never before seizure occurrence, it is suggested that the alanine increases are a consequence rather than a cause of convulsions. In 3H-flunitrazepam binding studies, no change in affinity or receptor number could be demonstrated during kindling.

Epileptic phenomena induced in the cat by the antidepressants maprotiline, imipramine, clomipramine, and amitriptyline.

The epileptogenic properties of four tricyclic antidepressant drugs: maprotiline, imipramine, clomipramine, amitriptyline, were investigated in locally anesthetized cats immobilized with gallamine and supplied with neocortical, hippocampal, and reticular recording electrodes. The drugs were infused intravenously at a constant rate (0.5 or, in some cases, 0.25 mg/kg per min) up to a final dose of 45 mg/kg. Already in small doses (1 to 5 mg/kg) all four antidepressants produced local signs of epileptiform pathology. Generalized sustained discharges occurred, on the average, at between 20 and 25 mg/kg with all four drugs. Imipramine and amitriptyline, after the first or first few generalized discharges, led to a pattern of repeated short generalized seizures alternating with silent periods. Maprotiline invariably produced this later alternating pattern only after a 10- to 30-min period of a seminormal high amplitude pattern. Clomipramine assumed a position between maprotiline on the one hand and imipramine and amitriptyline on the other. Starting at doses of 2-4 mg/kg, imipramine, clomipramine and amitriptyline, all three being norepinephrine and serotonin uptake inhibitors, induced a high amplitude "sleep" pattern. Maprotiline, a norepinephrine uptake inhibitor, which is thought devoid of serotonin-uptake inhibiting properties, led to high amplitude slow waves only with doses of at least 12.5 to 15 mg/kg.

Influence of vincamine and piracetam on sleep--waking pattern of the cat.

The effect of Vincamine and Piracetam, two geriatric drugs, on sleep behavior of the laboratory cat was studied. The animals were chronically prepared for recording of the EEG of the cerebral cortex, the lateral geniculate body, and the hippocampus, and for recording of eye movements, the muscular tonus and respiration. During the experiment, sleep and waking behavior were monitored by the above mentioned telemetrically transmitted indicators and also through observation via closed-circuit television. Both Vincamine and Piracetam in doses of 1 and 300 mg/kg p.o., respectively, enhance absolute and relative amounts of paradoxical sleep (PS). Smaller doses have a lesser or no effect on PS. Larger doses again have little effect or else, in the first few hours after application, reduce PS and total amount of sleep. Both drugs have little effect on slow wave and total sleep. Piracetam, but not Vincamine, reduces the prominent frequency of the theta band in hippocampus during PS. The PS-enhancing effect of the two geriatric drugs may be related to their memory-improving influence.