Changes in seizure activity of the brain evoked by electrical stimulation of the dorsal hippocampus in various stages of sleep and wakefulness were studied in adult cats. During slow sleep, when the EEG is dominated by high-voltage slow waves, near-threshold epileptogenic hippocampal stimulation evokes well-marked paroxysmal discharges. During wakefulness or the paradoxical phase of sleep, when the EEG is desynchronized, this hippocampal stimulation is less effective: either no seizure discharges are produced or they are weak. Activation of the mesencephalic reticular formation before epileptogenic hippocampal stimulation hinders the appearance of seizure activity whereas activation after hippocampal stimulation does not inhibit paroxysmal discharges already in progress; on the contrary, in some cases they are actually strengthened a little. One of the main factors limiting the appearance and spread of seizure activity is considered to be the tonic inhibitory influence of the neocortex on other parts of the brain.