Acute effects of various GABA receptor agonists and glutamate antagonists on focal hippocampal seizures in freely moving rats elicited by low‐frequency stimulation

Abstract

In this study, we examined the acute anticonvulsant spectrum of (1) dizocilpine (0.03–3 mg/kg), CGS 19755 (1–10 mg/kg), and 7-chlorokynurenic acid (1–100 nmol) (NMDA receptor/ionophore complex antagonists); (2) muscimol (0.1–10 nmol; direct GABAA agonist); (3) YM90K (3–10 mg/kg; AMPA receptor antagonist); and (4) diazepam (2 and 5 mg/kg) and carbamazepine (5 and 20 mg/kg), two standard anticonvulsants, using the partially-kindled hippocampal model for epileptic seizures in freely moving rats. The anticonvulsant effect of these compounds were assessed by determining (1) the afterdischarge (AD), which is indicative of the severity of the seizure and related to seizure maintenance, and (2) the pulse number threshold (PNT), which is indicative of the seizure threshold or initiation. In addition, ataxia, a measure of CNS dysfunction, was assessed for each compound. Overall, our results indicated that the anticonvulsant compounds examined could be classified into three categories based on effects on the AD and PNT: (1) elevation of PNT (carbamazepine, dizocilpine, CGS 19755 and 7-chlorokyurenic acid); (2) reduction of AD (diazepam and muscimol); and (3) mixed action, i.e., increased PNT and decreased AD (YM90K). Behavioral data indicated that all compounds, except carbamazepine, produced a dose- or concentration-dependent ataxia. Overall, our results suggest that NMDA receptors play a role in seizure initiation, whereas the GABAA receptors appear to be involved in seizure maintenance and AMPA receptors may be involved in both phenomena. Synapse 28:103–109, 1998. © 1998 Wiley-Liss, Inc.