Interneuron-specific dual-AAV SCN1A gene replacement corrects epileptic phenotypes in mouse models of Dravet syndrome

Dravet综合征 中间神经元 表型 神经科学 对偶(语法数字) 生物 癫痫 基因 医学 遗传学 抑制性突触后电位 艺术 文学类
作者
John K. Mich,Jiyun Ryu,Aguan Wei,Bryan B. Gore,Rong Guo,Angela M. Bard,Refugio A. Martinez,Emily M. Luber,Jiatai Liu,Yemeserach Bishaw,Robert J. Christian,Luíz M. Oliveira,Nicole D. Miranda,Jan‐Marino Ramirez,Jonathan T. Ting,Ed S. Lein,Boaz P. Levi,Franck Kalume
出处
期刊:Science Translational Medicine [American Association for the Advancement of Science]
卷期号:17 (790): eadn5603-eadn5603 被引量:30
标识
DOI:10.1126/scitranslmed.adn5603
摘要

Dravet syndrome (DS) is a severe developmental epileptic encephalopathy marked by treatment-resistant seizures, developmental delay, intellectual disability, motor deficits, and a 10 to 20% rate of premature death. Most patients with DS harbor loss-of-function mutations in one copy of SCN1A , which encodes the voltage-gated sodium channel (Na V )1.1 alpha subunit and has been associated with inhibitory neuron dysfunction. Here, we generated a split-intein form of SCN1A and used a dual-vector delivery approach to circumvent adeno-associated virus (AAV) packaging limitations. In addition, we applied previously developed enhancer technology to produce an interneuron-specific gene replacement therapy for DS, called DLX2.0- SCN1A . The split-intein SCN1A vectors produced full-length Na V 1.1 protein, and functional sodium channels were recorded in HEK293 cells in vitro. Administration of dual DLX2.0- SCN1A AAVs to wild-type mice produced full-length, reconstituted human protein by Western blot and telencephalic interneuron–specific and dose-dependent Na V 1.1 expression by immunohistochemistry. These vectors also conferred strong dose-dependent protection against postnatal mortality and seizures in Scn1a fl/+ ;Meox2-Cre and Scn1a +/R613X DS mouse models. Injection of single or dual DLX2.0- SCN1A AAVs into wild-type mice did not result in increased mortality, weight loss, or gliosis as measured by immunohistochemistry. In contrast, expression of SCN1A in all neurons driven by the human SYNAPSIN I promoter caused an adverse effect marked by increased mortality in the preweaning period, before disease onset. These findings demonstrate proof of concept that interneuron-specific AAV-mediated SCN1A gene replacement can rescue DS phenotypes in mouse models and suggest that it could be a therapeutic approach for patients with DS.
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