SRSF1-dependent nuclear export inhibition of C9ORF72 repeat transcripts prevents neurodegeneration and associated motor deficits

The RNA for ALS- and frontotemporal dementia-associated C9ORF72 gene is exported from nucleus via an unknown mechanism. This study shows that reduction of nuclear export adaptor SRSF1 can alleviate neuronal cell death and nuclear export of C9ORF72 inDrosophilaand patient-derived induced motor neuron...

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Autores principales: Guillaume M. Hautbergue, Lydia M. Castelli, Laura Ferraiuolo, Alvaro Sanchez-Martinez, Johnathan Cooper-Knock, Adrian Higginbottom, Ya-Hui Lin, Claudia S. Bauer, Jennifer E. Dodd, Monika A. Myszczynska, Sarah M. Alam, Pierre Garneret, Jayanth S. Chandran, Evangelia Karyka, Matthew J. Stopford, Emma F. Smith, Janine Kirby, Kathrin Meyer, Brian K. Kaspar, Adrian M. Isaacs, Sherif F. El-Khamisy, Kurt J. De Vos, Ke Ning, Mimoun Azzouz, Alexander J. Whitworth, Pamela J. Shaw
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2017
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Acceso en línea:https://doaj.org/article/26d01605fb7344faaa67f88fe2c80e8f
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Sumario:The RNA for ALS- and frontotemporal dementia-associated C9ORF72 gene is exported from nucleus via an unknown mechanism. This study shows that reduction of nuclear export adaptor SRSF1 can alleviate neuronal cell death and nuclear export of C9ORF72 inDrosophilaand patient-derived induced motor neurons.