Antidystonic effects of Kv7 (KCNQ) channel openers in thedtszmutant, an animal model of primary paroxysmal dystonia

Abstract

Background and purpose: Mutations in neuronal K_v7 (KCNQ) potassium channels can cause episodic neurological disorders. Paroxysmal dyskinesias with dystonia are a group of movement disorders which are regarded as ion channelopathies, but the role of K_v7 channels in the pathogenesis and as targets for the treatment have so far not been examined.Experimental approach: In the present study, we therefore examined the effects of the activators of neuronal K_v7.2/7.3 channels retigabine (5, 7.5, 10 mg kg⁻¹i.p. and 10, 20 mg kg⁻¹p.o.) and flupirtine (10, 20 mg kg⁻¹i.p.) and of the channel blocker 10,10‐bis(4‐pyridinylmethyl)‐9(10H)‐anthracenone (XE‐991, 3 and 6 mg kg⁻¹i.p.) in thedt^szmutant hamster, a model of paroxysmal dyskinesia in which dystonic episodes occur in response to stress.Key results: Retigabine (10 mg kg⁻¹i.p., 20 mg kg⁻¹p.o.) and flupirtine (20 mg kg⁻¹i.p.) significantly improved dystonia, while XE‐991 caused a significant aggravation in thedt^szmutant. The antidystonic effect of retigabine (10 mg kg⁻¹i.p.) was counteracted by XE‐991 (3 mg kg⁻¹i.p.).Conclusions and Implications: These data indicate that dysfunctions of neuronal K_v7 channels deserve attention in dyskinesias. Since retigabine and flupirtine are well tolerated in humans, the present finding of pronounced antidystonic efficacy in thedt^szmutant suggests that neuronal K_v7 channel activators are interesting candidates for the treatment of dystonia‐associated dyskinesias and probably of other types of dystonias. The established analgesic effects of K_v7 channel openers might contribute to improvement of these disorders which are often accompanied by painful muscle spasms.British Journal of Pharmacology(2006)149, 747–753. doi:10.1038/sj.bjp.0706878