GABAB receptors as a common target for hypothermia and spike and wave seizures: intersecting mechanisms of thermoregulation and absence epilepsy.

In the current study the link among the γ-hydroxybutyrate (GHB)/pentylenetetrazole (PTZ)-induced absence-like seizures and concomitant decreases in the core temperature, as well as electroencephalographic (EEG) activity during rewarming from deep hypothermia produced by a drug-free protocol were investigated. During the rewarming period after deep cooling, most Wistar rats suffered from bilaterally synchronous spike and waves with no or mild behavioral correlates. Spike and wave seizures were temperature-dependent and were initially registered when body temperature (Tb) reached 25-27°C, but mostly during the mild hypothermia of 0.3-1.3°C (Tb of 36.3-37.3°C). In chemical absence models, spike and wave discharges were also closely accompanied by mild systemic hypothermia, as both PTZ- and GHB-induced temperature decreases ranged from about 1-1.4°C respectively, together with EEG markers of absence activity. Thus, throughout the different experimental designs, the occurrence of spike and wave discharges was always related to a mild (0.3-1.4°C) decrease of Tb. Benzodiazepine diazepam as the GABAA-positive allosteric modulator and CGP 62349 as the selective antagonist of GABAB receptors were used to determine if their well-known anticonvulsant properties also affect hypothermia elicited by these drugs. Finally, during the course of spontaneous rewarming from deep hypothermia, another selective GABAB-blocking agent, CGP 35348, was used to elucidate if GABAB inhibitory system could be critically implicated in the generation of hypothermia-dependent spike and waves. Diazepam prevented both the PTZ-induced hypothermia and electrographic absence seizures, but these two beneficial effects did not occur in the GHB model. Even though diazepam delayed GHB-induced maximal temperature decrease, the GHB effects remained highly significant. The GABAB antagonist CGP 62349 completely prevented hypothermia as well as absence seizures in both chemical models. Likewise, spike and wave discharges, registered during the spontaneous rewarming from deep hypothermia, were completely prevented by CGP 35348. These findings show that systemic hypothermia should definitely be regarded as a marker of GABAB receptor activation. Moreover, the results of this study clearly show that initial mild temperature decrease should be considered as strong absence-provoking factor. Hypothermia-induced nonconvulsive seizures also highlight the importance of continuous EEG monitoring in children undergoing therapeutic hypothermia after cardiac arrest. Since every change in peripheral or systemic temperature ultimately must be perceived by preoptic region of the anterior hypothalamus as the primary thermoregulatory and sleep-inducing center, the preoptic thermosensitive neurons in general and warm-sensitive neurons in particular, simply have to be regarded as the most probable candidate for connected thermoregulatory and absence generating mechanisms. Therefore, additional studies are needed to confirm their potential role in the generation and propagation of absence seizures.

The connection between absence-like seizures and hypothermia induced by penicillin: possible implication on other animal models of petit mal epilepsy.

In this study we investigated the relationship between penicillin-induced hypothermia and petit mal epilepsy induced by this proconvulsant antibiotic. In order to find a possible dose-dependent relationship, we used two doses: 1500.000 and 1000.000 U/kg b.wt., both known as being sufficient to induce absence-like attacks with subsequent spike and wave discharges (SWD) in electrocorticogram (ECoG). Because of experimental data suggesting penicillin binding to benzodiazepine receptor recognition site, we also studied penicillin-induced changes in body temperature after diazepam pretreatment. Results of this study clearly show that penicillin in doses known to induce petit mal-like epilepsy concomitantly induces statistically significant dose-dependent decrease in body temperature. Pretreatment with diazepam completely prevents both penicillin-induced hypothermia and SWDs. On the other hand, both the diazepam and mixed diazepam + penicillin treatments did not significantly alter body temperature. These results suggest, however, that at least some of the penicillin effects described could be assigned to its binding to the benzodiazepine receptor recognition site at GABA(A) ionophore. This may have an important clinical implication because the inhibitory action of penicillin at the benzodiazepine receptor recognition site could account for the mechanism of penicillin-induced unspecific encephalopathies in humans. The relationship between petit mal epilepsy and hypothermia sheds new light on the action mechanisms of penicillin-induced absence seizures.