A deleterious Na(v)1.1 mutation selectively impairs telencephalic inhibitory neurons derived from Dravet Syndrome patients

Dravet Syndrome is an intractable form of childhood epilepsy associated with deleterious mutations in SCN1A, the gene encoding neuronal sodium channel Na(v)1.1. Earlier studies using human induced pluripotent stem cells (iPSCs) have produced mixed results regarding the importance of Na(v)1.1 in huma...

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Autores principales: Sun, Yishan, Paşca, Sergiu P, Portmann, Thomas, Goold, Carleton, Worringer, Kathleen A, Guan, Wendy, Chan, Karen C, Gai, Hui, Vogt, Daniel, Chen, Ying-Jiun J, Mao, Rong, Chan, Karrie, Rubenstein, John LR, Madison, Daniel V, Hallmayer, Joachim, Froehlich-Santino, Wendy M, Bernstein, Jonathan A, Dolmetsch, Ricardo E
Formato: Online Artículo Texto
Lenguaje:English
Publicado: eLife Sciences Publications, Ltd 2016
Materias:
Neuroscience
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4961470/
https://www.ncbi.nlm.nih.gov/pubmed/27458797
http://dx.doi.org/10.7554/eLife.13073
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author Sun, Yishan
Paşca, Sergiu P
Portmann, Thomas
Goold, Carleton
Worringer, Kathleen A
Guan, Wendy
Chan, Karen C
Gai, Hui
Vogt, Daniel
Chen, Ying-Jiun J
Mao, Rong
Chan, Karrie
Rubenstein, John LR
Madison, Daniel V
Hallmayer, Joachim
Froehlich-Santino, Wendy M
Bernstein, Jonathan A
Dolmetsch, Ricardo E
author_facet Sun, Yishan
Paşca, Sergiu P
Portmann, Thomas
Goold, Carleton
Worringer, Kathleen A
Guan, Wendy
Chan, Karen C
Gai, Hui
Vogt, Daniel
Chen, Ying-Jiun J
Mao, Rong
Chan, Karrie
Rubenstein, John LR
Madison, Daniel V
Hallmayer, Joachim
Froehlich-Santino, Wendy M
Bernstein, Jonathan A
Dolmetsch, Ricardo E
author_sort Sun, Yishan
collection PubMed
description Dravet Syndrome is an intractable form of childhood epilepsy associated with deleterious mutations in SCN1A, the gene encoding neuronal sodium channel Na(v)1.1. Earlier studies using human induced pluripotent stem cells (iPSCs) have produced mixed results regarding the importance of Na(v)1.1 in human inhibitory versus excitatory neurons. We studied a Na(v)1.1 mutation (p.S1328P) identified in a pair of twins with Dravet Syndrome and generated iPSC-derived neurons from these patients. Characterization of the mutant channel revealed a decrease in current amplitude and hypersensitivity to steady-state inactivation. We then differentiated Dravet-Syndrome and control iPSCs into telencephalic excitatory neurons or medial ganglionic eminence (MGE)-like inhibitory neurons. Dravet inhibitory neurons showed deficits in sodium currents and action potential firing, which were rescued by a Na(v)1.1 transgene, whereas Dravet excitatory neurons were normal. Our study identifies biophysical impairments underlying a deleterious Na(v)1.1 mutation and supports the hypothesis that Dravet Syndrome arises from defective inhibitory neurons. DOI: http://dx.doi.org/10.7554/eLife.13073.001
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spelling pubmed-49614702016-07-28 A deleterious Na(v)1.1 mutation selectively impairs telencephalic inhibitory neurons derived from Dravet Syndrome patients Sun, Yishan Paşca, Sergiu P Portmann, Thomas Goold, Carleton Worringer, Kathleen A Guan, Wendy Chan, Karen C Gai, Hui Vogt, Daniel Chen, Ying-Jiun J Mao, Rong Chan, Karrie Rubenstein, John LR Madison, Daniel V Hallmayer, Joachim Froehlich-Santino, Wendy M Bernstein, Jonathan A Dolmetsch, Ricardo E eLife Neuroscience Dravet Syndrome is an intractable form of childhood epilepsy associated with deleterious mutations in SCN1A, the gene encoding neuronal sodium channel Na(v)1.1. Earlier studies using human induced pluripotent stem cells (iPSCs) have produced mixed results regarding the importance of Na(v)1.1 in human inhibitory versus excitatory neurons. We studied a Na(v)1.1 mutation (p.S1328P) identified in a pair of twins with Dravet Syndrome and generated iPSC-derived neurons from these patients. Characterization of the mutant channel revealed a decrease in current amplitude and hypersensitivity to steady-state inactivation. We then differentiated Dravet-Syndrome and control iPSCs into telencephalic excitatory neurons or medial ganglionic eminence (MGE)-like inhibitory neurons. Dravet inhibitory neurons showed deficits in sodium currents and action potential firing, which were rescued by a Na(v)1.1 transgene, whereas Dravet excitatory neurons were normal. Our study identifies biophysical impairments underlying a deleterious Na(v)1.1 mutation and supports the hypothesis that Dravet Syndrome arises from defective inhibitory neurons. DOI: http://dx.doi.org/10.7554/eLife.13073.001 eLife Sciences Publications, Ltd 2016-07-26 /pmc/articles/PMC4961470/ /pubmed/27458797 http://dx.doi.org/10.7554/eLife.13073 Text en © 2016, Sun et al http://creativecommons.org/licenses/by/4.0/ This article is distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use and redistribution provided that the original author and source are credited.
spellingShingle Neuroscience
Sun, Yishan
Paşca, Sergiu P
Portmann, Thomas
Goold, Carleton
Worringer, Kathleen A
Guan, Wendy
Chan, Karen C
Gai, Hui
Vogt, Daniel
Chen, Ying-Jiun J
Mao, Rong
Chan, Karrie
Rubenstein, John LR
Madison, Daniel V
Hallmayer, Joachim
Froehlich-Santino, Wendy M
Bernstein, Jonathan A
Dolmetsch, Ricardo E
A deleterious Na(v)1.1 mutation selectively impairs telencephalic inhibitory neurons derived from Dravet Syndrome patients
title A deleterious Na(v)1.1 mutation selectively impairs telencephalic inhibitory neurons derived from Dravet Syndrome patients
title_full A deleterious Na(v)1.1 mutation selectively impairs telencephalic inhibitory neurons derived from Dravet Syndrome patients
title_fullStr A deleterious Na(v)1.1 mutation selectively impairs telencephalic inhibitory neurons derived from Dravet Syndrome patients
title_full_unstemmed A deleterious Na(v)1.1 mutation selectively impairs telencephalic inhibitory neurons derived from Dravet Syndrome patients
title_short A deleterious Na(v)1.1 mutation selectively impairs telencephalic inhibitory neurons derived from Dravet Syndrome patients
title_sort deleterious na(v)1.1 mutation selectively impairs telencephalic inhibitory neurons derived from dravet syndrome patients
topic Neuroscience
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4961470/
https://www.ncbi.nlm.nih.gov/pubmed/27458797
http://dx.doi.org/10.7554/eLife.13073
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