Spontaneous enhancement of synchronous discharges of pyramidal cells and synchroniztion of recurrent inhibitions in the kindled hippocampus of the rabbit

抄録

1) The rabbit hippocampus was kindled through daily electrical stimulation. The rabbit was then anesthetized with Nembutal, and interictal and brain stem-induced potentials, together with fornix-evoked potentials, were studied by observing the depth profiles of field potentials.
2) Interictal field potentials were characterized by the existence of a large slow positivity when recorded in CA1-CA2 apical dendrite layer. On the other hand, brain stem induced field potential having the shortest latency was recorded invariably as a positive deflection in the apical dendrite layer. These positivities were thought to be the extracellular correlates of the Cl-non-dependent hyperpolarization of the pyramidal cell, because they were the largest in magnitude in the apical dendrite layer.
3) The largest interictal field potential and supramaximal fornix-evoked field potential were identical with each other in waveform. Both potentials had one or two population spikes at the onset (CA3-CA4) or at the early part (CA1-CA2). This indicated that the synchronous discharges of pyramidal cells were instrumental in generating the large interictal hyperpolarization through synchronous activation of recurrent inhibitory circuits.