Activity-mediated changes in feed-forward inhibition in the dentate commissural pathway: relationship to EPSP/spike dissociation in the converging perforant path

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Activity-mediated changes in feed-forward inhibition in the dentate commissural pathway: relationship to EPSP/spike dissociation in the converging perforant path

R. A. Tomasulo and J. J. Ramirez
Department of Neurology, University of Virginia School of Medicine, Charlottesville 22908.

1. We tested the hypothesis that long-term synaptic potentiation (LTP)-associated excitatory postsynaptic potential (EPSP)/spike dissociation in the dentate gyrus (DG) is determined, in part, by changes in the feed-forward inhibition evoked by perforant path (PP) stimulation. The dentate commissural pathway (CP) and the PP activate a common pool of interneurons. Therefore a change in synaptic efficacy in the inhibitory circuit due to activation of one pathway could lead to changes in inhibitory efficacy in the other. The relationship between changes in feed-forward inhibition in the CP and EPSP/spike (E-S) functions in the PP should provide information about the site(s) of synaptic modification. 2. In urethan-anesthetized rats, we measured the inhibition of evoked PP population spikes by the CP at interstimulus intervals of 6 and 12 ms. This measure of commissural inhibition and conventional E-S functions for the PP input to the DG were obtained before and after 1) PP tetany (400 Hz, 8-pulse trains) at low, medium, and high stimulus intensities, and 2) CP tetany (200 Hz, 7-pulse trains). 3. Low-intensity PP conditioning (just above population spike threshold) led to a decrease in CP inhibition and large left shifts of the E-S function. High- and medium-intensity PP conditioning yielded increases in commissural inhibition and smaller leftward E-S shifts. 4. Commissural conditioning led to increases in commissural inhibition and inconsistent changes in the E-S functions.(ABSTRACT TRUNCATED AT 250 WORDS)

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Activity-mediated changes in feed-forward inhibition in the dentate commissural pathway: relationship to EPSP/spike dissociation in the converging perforant path