| Abstract: | Changes in spike potentials and EPSPs and IPSPs of neurons in the general cortex of the turtle forebrain were investigated intracellularly during habituation to flashes. The amplitudes of all these potentials were reduced although the level of the membrane potential remained unchanged. Their dependence on membrane potential was disturbed. The lowering of amplitude of the short-latency spike in response to flashes was greater than that of the spontaneous spike or of the spike after an IPSP. Considering that with extracellular recording only a selective lowering of the short-latency spike is observed, it can be concluded that depression of the spontaneous spike and of the post-IPSP spike reflects a nonspecific decrease in neuron excitability on account of prolonged intracellular recording, whereas the lowering of the short-latency spike reflects habituation at the neuronal level. Disinhibition of the amplitude of spikes and postsynaptic potentials was observed. The hypothesis that a population of synapses activated by a particular stimulus when applied repeatedly induces a short-term change in the electrogenic prperties of the nonreceptor neuron membrane, which determines the depression of the electrical responses, is put forward and discussed.M. V. Lomonosov State University, Moscow. Translated from Neirofiziologiya, Vol. 8, No. 1, pp. 22–29, January–February, 1976. |
