High expression of noradrenaline, choline acetyltransferase and glial fibrillary acidic protein in the epileptic focus consecutive to GABA withdrawal: An immunocytochemical study

Abstract Interruption of a chronic GABA infusion into the rat somatosensory cortex induces the appearance of focal epileptic manifestations, known as the ‘GABA withdrawal syndrome’ (GWS). The aim of the present study was to determine, by immunocytochemistry, if neurotransmitters other than GABA are involved in GWS, namely: noradrenaline (NA), serotonin, choline acetyltransferase (CAT), cholecystokinin, neuropeptide Y, somatostatin and glial fibrillary acid protein (GFAP). Immunocytochemical data were compared in three animal groups: GABA-, saline- and L -aspartate ( L -Asp)-infused rats. Only GABA-infused rats presented epileptic manifestations after interruption of the infusion. Saline- and L -Asp-infused rats served as controls. Observations were limited to the region surrounding the cortical infusion site. GABA-infused rats showed in the zone of the epileptic focus a number of cell bodies strongly immunoreactive to NA antibodies much larger than control rats. In addition, NA-immunoreactive fibers formed a dense plexus and some of them were observed around perikarya. In saline- and L -Asp-infused rats, the NA-immunolabelled fibers were sparse and NA immunolabelling was rarely observed in cell bodies. These results contrast to those obtained for the serotonergic system, where no significant difference was observed among the three groups of rats. CAT immunolabelling was observed in cell bodies, but not in nerve terminals in rats of the three groups. The number of CAT-immunoreactive cell bodies was much greater in GABA-infused rats than in the control animals. GFAP immunolabelling showed an important number of astrocytes throughout the cortex of the GABA-infused hemisphere, whereas, astrocytic reaction was limited to the infusion site in controls. Immunocytochemical data concerning peptides revealed cortical neuronal elements labelled similarly in the three groups of rats. Noradrenergic, cholinergic and glial modifications observed mainly in GABA-infused rats can result from lesion and from a specific action of GABA in chronic infusion. These modifications may contribute to the epileptogenesis of GWS, as recently demonstrated by electrophysiological recordings that show a modulating action of NA on firing activity of neurons involved in the epileptic focus.