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C9ORF72 knockdown triggers FTD-like symptoms and cell pathology in mice

The GGGGCC intronic repeat expansion within C9ORF72 is the most common genetic cause of ALS and FTD. This mutation results in toxic gain of function through accumulation of expanded RNA foci and aggregation of abnormally translated dipeptide repeat proteins, as well as loss of function due to impair...

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Autores principales: Lopez-Herdoiza, Maria-Belen, Bauché, Stephanie, Wilmet, Baptiste, Le Duigou, Caroline, Roussel, Delphine, Frah, Magali, Béal, Jonas, Devely, Gabin, Boluda, Susana, Frick, Petra, Bouteiller, Delphine, Dussaud, Sébastien, Guillabert, Pierre, Dalle, Carine, Dumont, Magali, Camuzat, Agnes, Saracino, Dario, Barbier, Mathieu, Bruneteau, Gaelle, Ravassard, Phillippe, Neumann, Manuela, Nicole, Sophie, Le Ber, Isabelle, Brice, Alexis, Latouche, Morwena
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2023
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10149765/
https://www.ncbi.nlm.nih.gov/pubmed/37138765
http://dx.doi.org/10.3389/fncel.2023.1155929
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author Lopez-Herdoiza, Maria-Belen
Bauché, Stephanie
Wilmet, Baptiste
Le Duigou, Caroline
Roussel, Delphine
Frah, Magali
Béal, Jonas
Devely, Gabin
Boluda, Susana
Frick, Petra
Bouteiller, Delphine
Dussaud, Sébastien
Guillabert, Pierre
Dalle, Carine
Dumont, Magali
Camuzat, Agnes
Saracino, Dario
Barbier, Mathieu
Bruneteau, Gaelle
Ravassard, Phillippe
Neumann, Manuela
Nicole, Sophie
Le Ber, Isabelle
Brice, Alexis
Latouche, Morwena
author_facet Lopez-Herdoiza, Maria-Belen
Bauché, Stephanie
Wilmet, Baptiste
Le Duigou, Caroline
Roussel, Delphine
Frah, Magali
Béal, Jonas
Devely, Gabin
Boluda, Susana
Frick, Petra
Bouteiller, Delphine
Dussaud, Sébastien
Guillabert, Pierre
Dalle, Carine
Dumont, Magali
Camuzat, Agnes
Saracino, Dario
Barbier, Mathieu
Bruneteau, Gaelle
Ravassard, Phillippe
Neumann, Manuela
Nicole, Sophie
Le Ber, Isabelle
Brice, Alexis
Latouche, Morwena
author_sort Lopez-Herdoiza, Maria-Belen
collection PubMed
description The GGGGCC intronic repeat expansion within C9ORF72 is the most common genetic cause of ALS and FTD. This mutation results in toxic gain of function through accumulation of expanded RNA foci and aggregation of abnormally translated dipeptide repeat proteins, as well as loss of function due to impaired transcription of C9ORF72. A number of in vivo and in vitro models of gain and loss of function effects have suggested that both mechanisms synergize to cause the disease. However, the contribution of the loss of function mechanism remains poorly understood. We have generated C9ORF72 knockdown mice to mimic C9-FTD/ALS patients haploinsufficiency and investigate the role of this loss of function in the pathogenesis. We found that decreasing C9ORF72 leads to anomalies of the autophagy/lysosomal pathway, cytoplasmic accumulation of TDP-43 and decreased synaptic density in the cortex. Knockdown mice also developed FTD-like behavioral deficits and mild motor phenotypes at a later stage. These findings show that C9ORF72 partial loss of function contributes to the damaging events leading to C9-FTD/ALS.
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spelling pubmed-101497652023-05-02 C9ORF72 knockdown triggers FTD-like symptoms and cell pathology in mice Lopez-Herdoiza, Maria-Belen Bauché, Stephanie Wilmet, Baptiste Le Duigou, Caroline Roussel, Delphine Frah, Magali Béal, Jonas Devely, Gabin Boluda, Susana Frick, Petra Bouteiller, Delphine Dussaud, Sébastien Guillabert, Pierre Dalle, Carine Dumont, Magali Camuzat, Agnes Saracino, Dario Barbier, Mathieu Bruneteau, Gaelle Ravassard, Phillippe Neumann, Manuela Nicole, Sophie Le Ber, Isabelle Brice, Alexis Latouche, Morwena Front Cell Neurosci Neuroscience The GGGGCC intronic repeat expansion within C9ORF72 is the most common genetic cause of ALS and FTD. This mutation results in toxic gain of function through accumulation of expanded RNA foci and aggregation of abnormally translated dipeptide repeat proteins, as well as loss of function due to impaired transcription of C9ORF72. A number of in vivo and in vitro models of gain and loss of function effects have suggested that both mechanisms synergize to cause the disease. However, the contribution of the loss of function mechanism remains poorly understood. We have generated C9ORF72 knockdown mice to mimic C9-FTD/ALS patients haploinsufficiency and investigate the role of this loss of function in the pathogenesis. We found that decreasing C9ORF72 leads to anomalies of the autophagy/lysosomal pathway, cytoplasmic accumulation of TDP-43 and decreased synaptic density in the cortex. Knockdown mice also developed FTD-like behavioral deficits and mild motor phenotypes at a later stage. These findings show that C9ORF72 partial loss of function contributes to the damaging events leading to C9-FTD/ALS. Frontiers Media S.A. 2023-04-17 /pmc/articles/PMC10149765/ /pubmed/37138765 http://dx.doi.org/10.3389/fncel.2023.1155929 Text en Copyright © 2023 Lopez-Herdoiza, Bauché, Wilmet, Le Duigou, Roussel, Frah, Béal, Devely, Boluda, Frick, Bouteiller, Dussaud, Guillabert, Dalle, Dumont, Camuzat, Saracino, Barbier, Bruneteau, Ravassard, Neumann, Nicole, Le Ber, Brice and Latouche. https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Neuroscience
Lopez-Herdoiza, Maria-Belen
Bauché, Stephanie
Wilmet, Baptiste
Le Duigou, Caroline
Roussel, Delphine
Frah, Magali
Béal, Jonas
Devely, Gabin
Boluda, Susana
Frick, Petra
Bouteiller, Delphine
Dussaud, Sébastien
Guillabert, Pierre
Dalle, Carine
Dumont, Magali
Camuzat, Agnes
Saracino, Dario
Barbier, Mathieu
Bruneteau, Gaelle
Ravassard, Phillippe
Neumann, Manuela
Nicole, Sophie
Le Ber, Isabelle
Brice, Alexis
Latouche, Morwena
C9ORF72 knockdown triggers FTD-like symptoms and cell pathology in mice
title C9ORF72 knockdown triggers FTD-like symptoms and cell pathology in mice
title_full C9ORF72 knockdown triggers FTD-like symptoms and cell pathology in mice
title_fullStr C9ORF72 knockdown triggers FTD-like symptoms and cell pathology in mice
title_full_unstemmed C9ORF72 knockdown triggers FTD-like symptoms and cell pathology in mice
title_short C9ORF72 knockdown triggers FTD-like symptoms and cell pathology in mice
title_sort c9orf72 knockdown triggers ftd-like symptoms and cell pathology in mice
topic Neuroscience
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10149765/
https://www.ncbi.nlm.nih.gov/pubmed/37138765
http://dx.doi.org/10.3389/fncel.2023.1155929
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