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Vol. 7, No. 5, pp. 357-362, September/October 2000

BRIEF COMMUNICATION
Role of a Striatal Slowly Inactivating Potassium Current in Short-Term Facilitation of Corticostriatal Inputs: A Computer Simulation Study

Séverine Mahon,1,3 Jean-Michel Deniau,1 Stéphane Charpier,1 and Bruno Delord2

1 Institut des Neurosciences, Département de Neurochimie-Anatomie and 2 Laboratoire, Université Pierre et Marie Curie, F-75005 Paris, France

Striatal output neurons (SONs) integrate glutamatergic synaptic inputs originating from the cerebral cortex. In vivo electrophysiological data have shown that a prior depolarization of SONs induced a short-term (<= 1 sec) increase in their membrane excitability, which facilitated the ability of corticostriatal synaptic potentials to induce firing. Here we propose, using a computational model of SONs, that the use-dependent, short-term increase in the responsiveness of SONs mainly results from the slow kinetics of a voltage-dependent, slowly inactivating potassium A-current. This mechanism confers on SONs a form of intrinsic short-term memory that optimizes the synaptic input-output relationship as a function of their past activation.

3 Corresponding author.

LEARNING & MEMORY 7:357-362 © 2000 by Cold Spring Harbor Laboratory Press ISSN1072-0502/00 $5.00
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