Abstract
The time relations between the evoked potential (EP) and neuronal activity of the dorsal hippocampus in response to sciatic nerve stimulation were investigated in experiments conducted on rabbits paralyzed by tubocurarine. Two groups of neurons were distinguished on the basis of the type of their reaction to sciatic stimulation. Inhibition of background spike activity was found in the neurons of the first group (70.9%); in 37% of them inhibition was preceded by excitation in the form of a spike discharge or excitatory postsynaptic potential (EPSP) which coincided in time with the positive phase of the EP. During inhibition of spike activity the hyperpolarization potential was recorded intracellularly in a number of neurons, the latent period of which coincided with the latent period of the negative phase of the EP. Neurons of the second group (20%) were characterized by protracted excitation of spike activity, and the start of their excitation coincided with the start of the negative phase of the EP and hyperpolarization potential of the neurons of the first group. Different sensitivity of the two groups of neurons was noted. It is concluded that the EPSP of the pyramidal neurons of the hippocampus participates in generation of the positive phase of the EP, and the hyperpolarization potentials of these neurons participate in the generation of its negative phase. The possibility is not precluded that hippocampal neurons closer to the surface participate in the development of the negative phase of the EP.
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