A murine model of hnRNPH2-related neurodevelopmental disorder reveals a mechanism for genetic compensation by Hnrnph1

Mutations in HNRNPH2 cause an X-linked neurodevelopmental disorder with features that include developmental delay, motor function deficits, and seizures. More than 90% of patients with hnRNPH2 have a missense mutation within or adjacent to the nuclear localization signal (NLS) of hnRNPH2. Here, we r...

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Autores principales: Korff, Ane, Yang, Xiaojing, O’Donovan, Kevin, Gonzalez, Abner, Teubner, Brett J.W., Nakamura, Haruko, Messing, James, Yang, Fen, Carisey, Alexandre F., Wang, Yong-Dong, Patni, Tushar, Sheppard, Heather, Zakharenko, Stanislav S., Chook, Yuh Min, Taylor, J. Paul, Kim, Hong Joo
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Society for Clinical Investigation 2023
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10348767/
https://www.ncbi.nlm.nih.gov/pubmed/37463454
http://dx.doi.org/10.1172/JCI160309
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author Korff, Ane
Yang, Xiaojing
O’Donovan, Kevin
Gonzalez, Abner
Teubner, Brett J.W.
Nakamura, Haruko
Messing, James
Yang, Fen
Carisey, Alexandre F.
Wang, Yong-Dong
Patni, Tushar
Sheppard, Heather
Zakharenko, Stanislav S.
Chook, Yuh Min
Taylor, J. Paul
Kim, Hong Joo
author_facet Korff, Ane
Yang, Xiaojing
O’Donovan, Kevin
Gonzalez, Abner
Teubner, Brett J.W.
Nakamura, Haruko
Messing, James
Yang, Fen
Carisey, Alexandre F.
Wang, Yong-Dong
Patni, Tushar
Sheppard, Heather
Zakharenko, Stanislav S.
Chook, Yuh Min
Taylor, J. Paul
Kim, Hong Joo
author_sort Korff, Ane
collection PubMed
description Mutations in HNRNPH2 cause an X-linked neurodevelopmental disorder with features that include developmental delay, motor function deficits, and seizures. More than 90% of patients with hnRNPH2 have a missense mutation within or adjacent to the nuclear localization signal (NLS) of hnRNPH2. Here, we report that hnRNPH2 NLS mutations caused reduced interaction with the nuclear transport receptor Kapβ2 and resulted in modest cytoplasmic accumulation of hnRNPH2. We generated 2 knockin mouse models with human-equivalent mutations in Hnrnph2 as well as Hnrnph2-KO mice. Knockin mice recapitulated clinical features of the human disorder, including reduced survival in male mice, impaired motor and cognitive functions, and increased susceptibility to audiogenic seizures. In contrast, 2 independent lines of Hnrnph2-KO mice showed no detectable phenotypes. Notably, KO mice had upregulated expression of Hnrnph1, a paralog of Hnrnph2, whereas knockin mice failed to upregulate Hnrnph1. Thus, genetic compensation by Hnrnph1 may counteract the loss of hnRNPH2. These findings suggest that HNRNPH2-related disorder may be driven by a toxic gain of function or a complex loss of HNRNPH2 function with impaired compensation by HNRNPH1. The knockin mice described here are an important resource for preclinical studies to assess the therapeutic benefit of gene replacement or knockdown of mutant hnRNPH2.
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spelling pubmed-103487672023-07-17 A murine model of hnRNPH2-related neurodevelopmental disorder reveals a mechanism for genetic compensation by Hnrnph1 Korff, Ane Yang, Xiaojing O’Donovan, Kevin Gonzalez, Abner Teubner, Brett J.W. Nakamura, Haruko Messing, James Yang, Fen Carisey, Alexandre F. Wang, Yong-Dong Patni, Tushar Sheppard, Heather Zakharenko, Stanislav S. Chook, Yuh Min Taylor, J. Paul Kim, Hong Joo J Clin Invest Research Article Mutations in HNRNPH2 cause an X-linked neurodevelopmental disorder with features that include developmental delay, motor function deficits, and seizures. More than 90% of patients with hnRNPH2 have a missense mutation within or adjacent to the nuclear localization signal (NLS) of hnRNPH2. Here, we report that hnRNPH2 NLS mutations caused reduced interaction with the nuclear transport receptor Kapβ2 and resulted in modest cytoplasmic accumulation of hnRNPH2. We generated 2 knockin mouse models with human-equivalent mutations in Hnrnph2 as well as Hnrnph2-KO mice. Knockin mice recapitulated clinical features of the human disorder, including reduced survival in male mice, impaired motor and cognitive functions, and increased susceptibility to audiogenic seizures. In contrast, 2 independent lines of Hnrnph2-KO mice showed no detectable phenotypes. Notably, KO mice had upregulated expression of Hnrnph1, a paralog of Hnrnph2, whereas knockin mice failed to upregulate Hnrnph1. Thus, genetic compensation by Hnrnph1 may counteract the loss of hnRNPH2. These findings suggest that HNRNPH2-related disorder may be driven by a toxic gain of function or a complex loss of HNRNPH2 function with impaired compensation by HNRNPH1. The knockin mice described here are an important resource for preclinical studies to assess the therapeutic benefit of gene replacement or knockdown of mutant hnRNPH2. American Society for Clinical Investigation 2023-07-17 /pmc/articles/PMC10348767/ /pubmed/37463454 http://dx.doi.org/10.1172/JCI160309 Text en © 2023 Korff et al. https://creativecommons.org/licenses/by/4.0/This work is licensed under the Creative Commons Attribution 4.0 International License. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Research Article
Korff, Ane
Yang, Xiaojing
O’Donovan, Kevin
Gonzalez, Abner
Teubner, Brett J.W.
Nakamura, Haruko
Messing, James
Yang, Fen
Carisey, Alexandre F.
Wang, Yong-Dong
Patni, Tushar
Sheppard, Heather
Zakharenko, Stanislav S.
Chook, Yuh Min
Taylor, J. Paul
Kim, Hong Joo
A murine model of hnRNPH2-related neurodevelopmental disorder reveals a mechanism for genetic compensation by Hnrnph1
title A murine model of hnRNPH2-related neurodevelopmental disorder reveals a mechanism for genetic compensation by Hnrnph1
title_full A murine model of hnRNPH2-related neurodevelopmental disorder reveals a mechanism for genetic compensation by Hnrnph1
title_fullStr A murine model of hnRNPH2-related neurodevelopmental disorder reveals a mechanism for genetic compensation by Hnrnph1
title_full_unstemmed A murine model of hnRNPH2-related neurodevelopmental disorder reveals a mechanism for genetic compensation by Hnrnph1
title_short A murine model of hnRNPH2-related neurodevelopmental disorder reveals a mechanism for genetic compensation by Hnrnph1
title_sort murine model of hnrnph2-related neurodevelopmental disorder reveals a mechanism for genetic compensation by hnrnph1
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10348767/
https://www.ncbi.nlm.nih.gov/pubmed/37463454
http://dx.doi.org/10.1172/JCI160309
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