AMPA受体
吡仑帕奈
前脑
神经科学
长期抑郁
谷氨酸受体
沉默突触
受体
药理学
癫痫
生物
中枢神经系统
生物化学
作者
Akihiko Kato,Kevin D. Burris,Kevin M. Gardinier,Douglas L. Gernert,Warren J. Porter,Jon K. Reel,Chunjin Ding,Yuan Tu,Douglas A. Schober,Matthew R. Lee,Beverly A. Heinz,Thomas Fitch,Scott D. Gleason,John T. Catlow,Hong Yu,Stephen M. Fitzjohn,Francesca Pasqui,He Wang,Yuewei Qian,Emanuele Sher
出处
期刊:Nature Medicine
[Nature Portfolio]
日期:2016-11-07
卷期号:22 (12): 1496-1501
被引量:89
摘要
Pharmacological manipulation of specific neural circuits to optimize therapeutic index is an unrealized goal in neurology and psychiatry. AMPA receptors are important for excitatory synaptic transmission, and their antagonists are antiepileptic. Although efficacious, AMPA-receptor antagonists, including perampanel (Fycompa), the only approved antagonist for epilepsy, induce dizziness and motor impairment. We hypothesized that blockade of forebrain AMPA receptors without blocking cerebellar AMPA receptors would be antiepileptic and devoid of motor impairment. Taking advantage of an AMPA receptor auxiliary protein, TARP γ-8, which is selectively expressed in the forebrain and modulates the pharmacological properties of AMPA receptors, we discovered that LY3130481 selectively antagonized recombinant and native AMPA receptors containing γ-8, but not γ-2 (cerebellum) or other TARP members. Two amino acid residues unique to γ-8 determined this selectivity. We also observed antagonism of AMPA receptors expressed in hippocampal, but not cerebellar, tissue from an patient with epilepsy. Corresponding to this selective activity, LY3130481 prevented multiple seizure types in rats and mice and without motor side effects. These findings demonstrate the first rationally discovered molecule targeting specific neural circuitries for therapeutic advantage.
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