Pre-synaptic and post-synaptic A-type K + channels regulate glutamatergic transmission and switching of the network into epileptiform oscillations.

Trans-synaptic voltage-dependent A-channels serve as a biophysical-biochemical transducer responsible for a novel form of synaptic plasticity. Such a network-level switch into and out of the oscillatory mode may underlie a wide scope of telencephalic information processing or, at its extreme, epileptic seizures. A-channels thus constitute a potential target of antiepileptic therapy.