Synaptic triggering of epileptiform discharges in CA1 pyramidal cells in vitro

Abstract

Intra- and extracellular recordings were made in the transverse [guinea pig] hippocampal slice in vitro to study the requirements for the triggering of epileptiform discharges of CA1 cells. Spontaneous and induced epileptiform discharges were produced by adding small amounts of sodium benzyl penicillin. Recorded intracellularly, the epileptiform activity consisted of a burst of action potentials superimposed on a depolarizing wave. Extracellular recordings demonstrated a marked synchronization. The epileptiform activity of the CA1 cells appeared without changes in the passive membrane properties or in the spike generating mechanism. Spontaneous epileptiform discharges of CA1 cells depended upon a synaptic activation from the CA3 region. Stimulation of afferent fibers evoked an early and a late burst response in the CA1 cells. The long latency burst was caused by a re-excitation from the CA3 region. The early burst response seems to be an intrinsic property of the CA1 cells and may be induced by synaptic activation of either apical or basal dendrites. Synaptic depolarization is necessary for the generation of epileptiform discharges of the CA1 cells.