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TUBG1 missense variants underlying cortical malformations disrupt neuronal locomotion and microtubule dynamics but not neurogenesis

De novo heterozygous missense variants in the γ-tubulin gene TUBG1 have been linked to human malformations of cortical development associated with intellectual disability and epilepsy. Here, we investigated through in-utero electroporation and in-vivo studies, how four of these variants affect corti...

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Autores principales: Ivanova, Ekaterina L., Gilet, Johan G., Sulimenko, Vadym, Duchon, Arnaud, Rudolf, Gabrielle, Runge, Karen, Collins, Stephan C., Asselin, Laure, Broix, Loic, Drouot, Nathalie, Tilly, Peggy, Nusbaum, Patrick, Vincent, Alexandre, Magnant, William, Skory, Valerie, Birling, Marie-Christine, Pavlovic, Guillaume, Godin, Juliette D., Yalcin, Binnaz, Hérault, Yann, Dráber, Pavel, Chelly, Jamel, Hinckelmann, Maria-Victoria
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group UK 2019
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6513894/
https://www.ncbi.nlm.nih.gov/pubmed/31086189
http://dx.doi.org/10.1038/s41467-019-10081-8
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author Ivanova, Ekaterina L.
Gilet, Johan G.
Sulimenko, Vadym
Duchon, Arnaud
Rudolf, Gabrielle
Runge, Karen
Collins, Stephan C.
Asselin, Laure
Broix, Loic
Drouot, Nathalie
Tilly, Peggy
Nusbaum, Patrick
Vincent, Alexandre
Magnant, William
Skory, Valerie
Birling, Marie-Christine
Pavlovic, Guillaume
Godin, Juliette D.
Yalcin, Binnaz
Hérault, Yann
Dráber, Pavel
Chelly, Jamel
Hinckelmann, Maria-Victoria
author_facet Ivanova, Ekaterina L.
Gilet, Johan G.
Sulimenko, Vadym
Duchon, Arnaud
Rudolf, Gabrielle
Runge, Karen
Collins, Stephan C.
Asselin, Laure
Broix, Loic
Drouot, Nathalie
Tilly, Peggy
Nusbaum, Patrick
Vincent, Alexandre
Magnant, William
Skory, Valerie
Birling, Marie-Christine
Pavlovic, Guillaume
Godin, Juliette D.
Yalcin, Binnaz
Hérault, Yann
Dráber, Pavel
Chelly, Jamel
Hinckelmann, Maria-Victoria
author_sort Ivanova, Ekaterina L.
collection PubMed
description De novo heterozygous missense variants in the γ-tubulin gene TUBG1 have been linked to human malformations of cortical development associated with intellectual disability and epilepsy. Here, we investigated through in-utero electroporation and in-vivo studies, how four of these variants affect cortical development. We show that TUBG1 mutants affect neuronal positioning, disrupting the locomotion of new-born neurons but without affecting progenitors’ proliferation. We further demonstrate that pathogenic TUBG1 variants are linked to reduced microtubule dynamics but without major structural nor functional centrosome defects in subject-derived fibroblasts. Additionally, we developed a knock-in Tubg1(Y92C/+) mouse model and assessed consequences of the mutation. Although centrosomal positioning in bipolar neurons is correct, they fail to initiate locomotion. Furthermore, Tubg1(Y92C/+) animals show neuroanatomical and behavioral defects and increased epileptic cortical activity. We show that Tubg1(Y92C/+) mice partially mimic the human phenotype and therefore represent a relevant model for further investigations of the physiopathology of cortical malformations.
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spelling pubmed-65138942019-05-15 TUBG1 missense variants underlying cortical malformations disrupt neuronal locomotion and microtubule dynamics but not neurogenesis Ivanova, Ekaterina L. Gilet, Johan G. Sulimenko, Vadym Duchon, Arnaud Rudolf, Gabrielle Runge, Karen Collins, Stephan C. Asselin, Laure Broix, Loic Drouot, Nathalie Tilly, Peggy Nusbaum, Patrick Vincent, Alexandre Magnant, William Skory, Valerie Birling, Marie-Christine Pavlovic, Guillaume Godin, Juliette D. Yalcin, Binnaz Hérault, Yann Dráber, Pavel Chelly, Jamel Hinckelmann, Maria-Victoria Nat Commun Article De novo heterozygous missense variants in the γ-tubulin gene TUBG1 have been linked to human malformations of cortical development associated with intellectual disability and epilepsy. Here, we investigated through in-utero electroporation and in-vivo studies, how four of these variants affect cortical development. We show that TUBG1 mutants affect neuronal positioning, disrupting the locomotion of new-born neurons but without affecting progenitors’ proliferation. We further demonstrate that pathogenic TUBG1 variants are linked to reduced microtubule dynamics but without major structural nor functional centrosome defects in subject-derived fibroblasts. Additionally, we developed a knock-in Tubg1(Y92C/+) mouse model and assessed consequences of the mutation. Although centrosomal positioning in bipolar neurons is correct, they fail to initiate locomotion. Furthermore, Tubg1(Y92C/+) animals show neuroanatomical and behavioral defects and increased epileptic cortical activity. We show that Tubg1(Y92C/+) mice partially mimic the human phenotype and therefore represent a relevant model for further investigations of the physiopathology of cortical malformations. Nature Publishing Group UK 2019-05-13 /pmc/articles/PMC6513894/ /pubmed/31086189 http://dx.doi.org/10.1038/s41467-019-10081-8 Text en © The Author(s) 2019 Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/.
spellingShingle Article
Ivanova, Ekaterina L.
Gilet, Johan G.
Sulimenko, Vadym
Duchon, Arnaud
Rudolf, Gabrielle
Runge, Karen
Collins, Stephan C.
Asselin, Laure
Broix, Loic
Drouot, Nathalie
Tilly, Peggy
Nusbaum, Patrick
Vincent, Alexandre
Magnant, William
Skory, Valerie
Birling, Marie-Christine
Pavlovic, Guillaume
Godin, Juliette D.
Yalcin, Binnaz
Hérault, Yann
Dráber, Pavel
Chelly, Jamel
Hinckelmann, Maria-Victoria
TUBG1 missense variants underlying cortical malformations disrupt neuronal locomotion and microtubule dynamics but not neurogenesis
title TUBG1 missense variants underlying cortical malformations disrupt neuronal locomotion and microtubule dynamics but not neurogenesis
title_full TUBG1 missense variants underlying cortical malformations disrupt neuronal locomotion and microtubule dynamics but not neurogenesis
title_fullStr TUBG1 missense variants underlying cortical malformations disrupt neuronal locomotion and microtubule dynamics but not neurogenesis
title_full_unstemmed TUBG1 missense variants underlying cortical malformations disrupt neuronal locomotion and microtubule dynamics but not neurogenesis
title_short TUBG1 missense variants underlying cortical malformations disrupt neuronal locomotion and microtubule dynamics but not neurogenesis
title_sort tubg1 missense variants underlying cortical malformations disrupt neuronal locomotion and microtubule dynamics but not neurogenesis
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6513894/
https://www.ncbi.nlm.nih.gov/pubmed/31086189
http://dx.doi.org/10.1038/s41467-019-10081-8
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