Fenfluramine Blocks Low‐Mg2+‐Induced Epileptiform Activity in Rat Entorhinal Cortex

Abstract

Summary: Purpose: The entorhinal cortex (EC) represents the main input structure to the hippocampus and seems to be critically involved in temporal lobe epilepsy. Considering that the EC receives a strong serotonergic projection from the raphe nuclei and expresses a high density of serotonin (5‐HT) receptors, the effect of the 5‐HT–releasing drug fenfluramine (FFA) on epileptiform activity generated in the EC was investigated in an in vitro model of epilepsy. Methods: The experiments were performed on 43 horizontal slices containing the EC, the subiculum, and the hippocampal formation obtained from 230–250 g adult Wistar rats. Using extracellular recording techniques, we investigated the effect of bath‐applied FFA (200 μmol/L to 1 mmol/L) on epileptiform activity induced by omitting MgSO₄ from the artificial cerebrospinal fluid. Results: We demonstrate that FFA reversibly blocks epileptiform activity in the EC. Surprisingly, in the presence of the 5‐HT uptake blocker paroxetine, the FFA‐induced effect was diminished. Coapplication of the 5‐HT_IA receptor antagonist WAY 100635 prevented the FFA‐induced anticonvulsive effect, suggesting that (a) the FFA‐induced suppression of epileptiform activity is mediated by the release of 5‐HT from synaptic terminals within the EC rather than by an unspecific effect of FFA and (b) released 5‐HT most likely blocks the activity by activation of 5‐HT_IA receptors. Conclusion: FFA, which is primarily used because of its anorectic activity, might get an additional therapeutic value in the treatment of temporal lobe epilepsy with parahippocampal involvement.