The patient-specific mouse model with Foxg1 frameshift mutation uncovers the pathophysiology of FOXG1 syndrome

Single allelic mutations in the gene encoding the forebrain-specific transcription factor FOXG1 lead to FOXG1 syndrome (FS). Patient-specific animal models are needed to understand the etiology of FS, as FS patients show a wide spectrum of symptoms correlated with location and mutation type in the F...

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Autores principales: Park, Jaein, Moon, Ji Hwan, O’Shea, Holly, Shin, Dongjun, Hwang, Seon Ung, Li, Liwen, Lee, Hyojong, Brimble, Elise, Lee, Jae, Clark, Stewart, Lee, Soo-Kyung, Jeon, Shin
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Journal Experts 2023
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10312924/
https://www.ncbi.nlm.nih.gov/pubmed/37398410
http://dx.doi.org/10.21203/rs.3.rs-2953760/v1
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author Park, Jaein
Moon, Ji Hwan
O’Shea, Holly
Shin, Dongjun
Hwang, Seon Ung
Li, Liwen
Lee, Hyojong
Brimble, Elise
Lee, Jae
Clark, Stewart
Lee, Soo-Kyung
Jeon, Shin
author_facet Park, Jaein
Moon, Ji Hwan
O’Shea, Holly
Shin, Dongjun
Hwang, Seon Ung
Li, Liwen
Lee, Hyojong
Brimble, Elise
Lee, Jae
Clark, Stewart
Lee, Soo-Kyung
Jeon, Shin
author_sort Park, Jaein
collection PubMed
description Single allelic mutations in the gene encoding the forebrain-specific transcription factor FOXG1 lead to FOXG1 syndrome (FS). Patient-specific animal models are needed to understand the etiology of FS, as FS patients show a wide spectrum of symptoms correlated with location and mutation type in the FOXG1 gene. Here we report the first patient-specific FS mouse model, Q84Pfs heterozygous (Q84Pfs-Het) mice, mimicking one of the most predominant single nucleotide variants in FS. Intriguingly, we found that Q84Pfs-Het mice faithfully recapitulate human FS phenotypes at the cellular, brain structural, and behavioral levels. Importantly, Q84Pfs-Het mice exhibited myelination deficits like FS patients. Further, our transcriptome analysis of Q84Pfs-Het cortex revealed a new role for FOXG1 in synapse and oligodendrocyte development. The dysregulated genes in Q84Pfs-Het brains also predicted motor dysfunction and autism-like phenotypes. Correspondingly, Q84Pfs-Het mice showed movement deficits, repetitive behaviors, increased anxiety, and prolonged behavior arrest. Together, our study revealed the crucial postnatal role of FOXG1 in neuronal maturation and myelination and elucidated the essential pathophysiology mechanisms of FS.
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spelling pubmed-103129242023-07-01 The patient-specific mouse model with Foxg1 frameshift mutation uncovers the pathophysiology of FOXG1 syndrome Park, Jaein Moon, Ji Hwan O’Shea, Holly Shin, Dongjun Hwang, Seon Ung Li, Liwen Lee, Hyojong Brimble, Elise Lee, Jae Clark, Stewart Lee, Soo-Kyung Jeon, Shin Res Sq Article Single allelic mutations in the gene encoding the forebrain-specific transcription factor FOXG1 lead to FOXG1 syndrome (FS). Patient-specific animal models are needed to understand the etiology of FS, as FS patients show a wide spectrum of symptoms correlated with location and mutation type in the FOXG1 gene. Here we report the first patient-specific FS mouse model, Q84Pfs heterozygous (Q84Pfs-Het) mice, mimicking one of the most predominant single nucleotide variants in FS. Intriguingly, we found that Q84Pfs-Het mice faithfully recapitulate human FS phenotypes at the cellular, brain structural, and behavioral levels. Importantly, Q84Pfs-Het mice exhibited myelination deficits like FS patients. Further, our transcriptome analysis of Q84Pfs-Het cortex revealed a new role for FOXG1 in synapse and oligodendrocyte development. The dysregulated genes in Q84Pfs-Het brains also predicted motor dysfunction and autism-like phenotypes. Correspondingly, Q84Pfs-Het mice showed movement deficits, repetitive behaviors, increased anxiety, and prolonged behavior arrest. Together, our study revealed the crucial postnatal role of FOXG1 in neuronal maturation and myelination and elucidated the essential pathophysiology mechanisms of FS. American Journal Experts 2023-06-02 /pmc/articles/PMC10312924/ /pubmed/37398410 http://dx.doi.org/10.21203/rs.3.rs-2953760/v1 Text en https://creativecommons.org/licenses/by/4.0/This work is licensed under a Creative Commons Attribution 4.0 International License (https://creativecommons.org/licenses/by/4.0/) , which allows reusers to distribute, remix, adapt, and build upon the material in any medium or format, so long as attribution is given to the creator. The license allows for commercial use.
spellingShingle Article
Park, Jaein
Moon, Ji Hwan
O’Shea, Holly
Shin, Dongjun
Hwang, Seon Ung
Li, Liwen
Lee, Hyojong
Brimble, Elise
Lee, Jae
Clark, Stewart
Lee, Soo-Kyung
Jeon, Shin
The patient-specific mouse model with Foxg1 frameshift mutation uncovers the pathophysiology of FOXG1 syndrome
title The patient-specific mouse model with Foxg1 frameshift mutation uncovers the pathophysiology of FOXG1 syndrome
title_full The patient-specific mouse model with Foxg1 frameshift mutation uncovers the pathophysiology of FOXG1 syndrome
title_fullStr The patient-specific mouse model with Foxg1 frameshift mutation uncovers the pathophysiology of FOXG1 syndrome
title_full_unstemmed The patient-specific mouse model with Foxg1 frameshift mutation uncovers the pathophysiology of FOXG1 syndrome
title_short The patient-specific mouse model with Foxg1 frameshift mutation uncovers the pathophysiology of FOXG1 syndrome
title_sort patient-specific mouse model with foxg1 frameshift mutation uncovers the pathophysiology of foxg1 syndrome
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10312924/
https://www.ncbi.nlm.nih.gov/pubmed/37398410
http://dx.doi.org/10.21203/rs.3.rs-2953760/v1
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