Abstract
We employed measurements of striatal terminal excitability to monitor the presynaptic effects of tetanic stimulation of corticostriatal fibers. Cortical tetanic stimulation (CTS) initiated a long-lasting decrease in terminal excitability. With higher current CTS, a transient increase in excitability preceded the decrease. However, a long-term increase was induced (1) by a second tetanus applied during the brief elevation in excitability initiated by a previous CTS or (2) when dopamine and GABA transmission were disrupted. A long-term increase also occurred following tetanic stimulation of the striatal terminal field (STS). The direction of the long-lasting change in excitability may depend on the level of polarization of the membrane. These presynaptic mechanisms could be important for the long-term selective modification of striatal synaptic transmission.
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