Pharmacology and mechanism of action of pregabalin:: The calcium channel α2-δ (alpha2-delta) subunit as a target for antiepileptic drug discovery

Pregabalin (Lyrica (TM)) is a new antiepileptic drug that is active in animal seizure models. Pregabalin is approved in US and Europe for adjunctive therapy of partial seizures in adults, and also has been approved for the treatment of pain from diabetic neuropathy or post-herpetic neuralgia in adults. Recently, it has been approved for treatment of anxiety disorders in Europe. Pregabalin is structurally related to the antiepileptic drug gabapentin and the site of action of both drugs is similar, the alpha(2)-delta (alpha(2)-delta) protein, an auxiliary subunit of voltage-gated calcium channels. Pregabalin subtly reduces the synaptic release of several neurotransmitters, apparently by binding to alpha(2)-delta subunits, and possibly accounting for its actions in vivo to reduce neuronal excitability and seizures. Several studies indicate that the pharmacology of pregabalin requires binding to alpha(2)-delta subunits, including structure-activity analyses of compounds binding to alpha(2)-delta subunits and pharmacology in mice deficient in binding at the alpha(2)-delta Type 1 protein. The preclinical findings to date are consistent with a mechanism that may entail reduction of abnormal neuronal excitability through reduced neurotransmitter release. This review addresses the preclinical pharmacology of pregabalin, and also the biology of the high affinity binding site, and presumed site of action. (c) 2006 Published by Elsevier B.V.