IngentaConnect Recent Advances in the Modulation of Voltage-Gated Ion Channels f...

Abstract:

Regardless of the voltage-gated ion channel that is targeted in a drug discovery effort for the treatment of epilepsy, two routes have been followed historically: 1) a compound initially, and often surreptitiously, discovered due to activity in animal seizure models is further optimized by medicinal chemistry, or 2) a molecular target is identified based on the phenotype of transgenic animals, or linkage studies from humans with the disease, and compounds are then investigated within a mechanistic framework. Antagonists of voltage-gated sodium channels have been pursued utilizing primarily the first approach many of these compounds also have significant activity at other ion channels. Both approaches have been utilized to discover voltage-gated calcium channel antagonists, although most efforts to date have used the first approach. Several spontaneous mutant mice and transgenic animals have been utilized to probe the role of the numerous voltage-gated calcium channel subunits and their isoforms as potential molecular targets. Compounds that open or prolong the opening of voltage-gated potassium channels have been discovered using the first approach, with a detailed understanding of the molecular target and mechanism of action coming to light several years later. Genetic evidence from humans is limited to relatively rare forms of epilepsy, and transgenic animals with interesting phenotypes do not always translate into good molecular targets in humans. No clinically-useful antiepileptic drug (AED) has been developed to date that specifically interacts with one, or even one class, of ion channels to produce a therapeutic effect. The tools now exist to search for potent, selective, and safe ion channel modulators for the treatment of epilepsy. This review seeks to summarize the most recent pre-clinical and clinical efforts focused on voltage-gated ion-channels for the development of AEDs.

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Recent Advances in the Modulation of Voltage-Gated Ion Channels for the Treatment of Epilepsy