Abstract
Cellular mechanisms of pilocarpine-induced epileptiform activity in isolatedCA1 andCA3 hippocampal neurons were studied using a current-clamp technique. Isolated unipolar neurons dominate after enzymatic treatment of theCA1 tissue, whereas large multipolar neurons are mainly located in theCA3 area. Measurements of the membrane potential in these two groups of neurons showed that most of them are “silent” cells. Only a small group of neurons from theCA3 area displayed spontaneous electrical activity. Pilocarpine, a well known epileptogenic compound, induced rhythmic waveform changes in the membrane potential in some “silent” unipolar neurons from theCA1 area, whereas in another more numerous group of neurons it induced only steady depolarization of the membrane. Application of tetrodotoxin, the selective blocker of Na+ channels, blocked generation of action potentials induced inCA1 neurons by pilocarpine, but exerted no effect on waveform shifts of the membrane potential. It is suggested that the mechanism underlying epileptogenic action of pilocarpine on the brain activity in rats is based on the induction of waveform changes in the membrane potential in unipolar neurons of theCA1 hippocampal area.
Published Version
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