The role of a raphe serotonin system in the control of septal unit activity and hippocampal desynchronization

Abstract

The effects of electrical stimulation of the median raphe nucleus on neuronal discharges in the medial septal area and electrical activity of the hippocampus were examined in urethane-anaesthetized rats. Two cell populations in the medial septal area were differentiated on the basis of their spontaneous discharge pattern, response to median raphe nucleus stimulation and whether or not they were antidromically activated following hippocampal stimulation. Medial septal area cells classified as I-neurones discharge in an irregular pattern which was unrelated to hippocampal activity. In contrast, B-neurones discharge in either rhythmic bursts or in an irregular manner which were related to hippocampal ‘theta’ or ‘desynchronization’, respectively. Single pulse stimulation of the median raphe nucleus inhibited the spontaneous discharge of I-neurones but did not influence the firing of B-neurones or hippocampal activity. Repetitive stimulation of the median raphe nucleus resulted in a prolonged inhibition of I-neurones, a disruption of the bursting discharge of B-neurones, and desynchronization of the hippocampal ‘theta’. The effects of median raphe nucleus stimulation were blocked by pretreatment with parachlorophenylalanine suggesting that a serotonin-containing system originating in the median raphe nucleus may be involved in mediating these responses.