SATB2-LEMD2 interaction links nuclear shape plasticity to regulation of cognition-related genes

Patrick Feurle; Andreas Abentung; Isabella Cera; Nico Wahl; Cornelia Ablinger; Michael Bucher; Eduard Stefan; Simon Sprenger; David Teis; Andre Fischer; Aodán Laighneach; Laura Whitton; Derek W. Morris; Galina Apostolova; Georg Dechant

doi:10.15252/embj.2019103701

SATB2-LEMD2 interaction links nuclear shape plasticity to regulation of cognition-related genes

Patrick Feurle
, Andreas Abentung
, Isabella Cera
, Nico Wahl
, Cornelia Ablinger
, Michael Bucher
, Eduard Stefan
, Simon Sprenger
, David Teis
, Andre Fischer
, Aodán Laighneach
, Laura Whitton
, Derek W. Morris
, Galina Apostolova
, Georg Dechant

Molecular Biosciences

Medical University Innsbruck
University of Innsbruck
German Center for Neurodegenerative Diseases (DZNE)
University Medical Centre Göttingen
University of Galway

Research output: Contribution to a Journal (Peer & Non Peer) › Article › peer-review

22 Citations (Scopus)

Abstract

SATB2 is a schizophrenia risk gene and is genetically associated with human intelligence. How it affects cognition at molecular level is currently unknown. Here, we show that interactions between SATB2, a chromosomal scaffolding protein, and the inner nuclear membrane protein LEMD2 orchestrate the response of pyramidal neurons to neuronal activation. Exposure to novel environment in vivo causes changes in nuclear shape of CA1 hippocampal neurons via a SATB2-dependent mechanism. The activity-driven plasticity of the nuclear envelope requires not only SATB2, but also its protein interactor LEMD2 and the ESCRT-III/VPS4 membrane-remodeling complex. Furthermore, LEMD2 depletion in cortical neurons, similar to SATB2 ablation, affects neuronal activity-dependent regulation of multiple rapid and delayed primary response genes. In human genetic data, LEMD2-regulated genes are enriched for de novo mutations reported in intellectual disability and schizophrenia and are, like SATB2-regulated genes, enriched for common variants associated with schizophrenia and cognitive function. Hence, interactions between SATB2 and the inner nuclear membrane protein LEMD2 influence gene expression programs in pyramidal neurons that are linked to cognitive ability and psychiatric disorder etiology.

Original language	English
Article number	e103701
Number of pages	0
Journal	EMBO Journal
Volume	40
Issue number	3
DOIs	https://doi.org/10.15252/embj.2019103701
Publication status	Published - 1 Feb 2021

Keywords

SATB2
chromatin
human cognitive ability
neuronal activity
nuclear envelope

Authors (Note for portal: view the doc link for the full list of authors)

Authors
Feurle, P;Abentung, A;Cera, I;Wahl, N;Ablinger, C;Bucher, M;Stefan, E;Sprenger, S;Teis, D;Fischer, A;Laighneach, A;Whitton, L;Morris, DW;Apostolova, G;Dechant, G

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10.15252/embj.2019103701

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Feurle, P., Abentung, A., Cera, I., Wahl, N., Ablinger, C., Bucher, M., Stefan, E., Sprenger, S., Teis, D., Fischer, A., Laighneach, A., Whitton, L., Morris, D. W., Apostolova, G., & Dechant, G. (2021). SATB2-LEMD2 interaction links nuclear shape plasticity to regulation of cognition-related genes. EMBO Journal, 40(3), Article e103701. https://doi.org/10.15252/embj.2019103701

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title = "SATB2-LEMD2 interaction links nuclear shape plasticity to regulation of cognition-related genes",

abstract = "SATB2 is a schizophrenia risk gene and is genetically associated with human intelligence. How it affects cognition at molecular level is currently unknown. Here, we show that interactions between SATB2, a chromosomal scaffolding protein, and the inner nuclear membrane protein LEMD2 orchestrate the response of pyramidal neurons to neuronal activation. Exposure to novel environment in vivo causes changes in nuclear shape of CA1 hippocampal neurons via a SATB2-dependent mechanism. The activity-driven plasticity of the nuclear envelope requires not only SATB2, but also its protein interactor LEMD2 and the ESCRT-III/VPS4 membrane-remodeling complex. Furthermore, LEMD2 depletion in cortical neurons, similar to SATB2 ablation, affects neuronal activity-dependent regulation of multiple rapid and delayed primary response genes. In human genetic data, LEMD2-regulated genes are enriched for de novo mutations reported in intellectual disability and schizophrenia and are, like SATB2-regulated genes, enriched for common variants associated with schizophrenia and cognitive function. Hence, interactions between SATB2 and the inner nuclear membrane protein LEMD2 influence gene expression programs in pyramidal neurons that are linked to cognitive ability and psychiatric disorder etiology.",

keywords = "SATB2, chromatin, human cognitive ability, neuronal activity, nuclear envelope",

author = "Patrick Feurle and Andreas Abentung and Isabella Cera and Nico Wahl and Cornelia Ablinger and Michael Bucher and Eduard Stefan and Simon Sprenger and David Teis and Andre Fischer and Aod{\'a}n Laighneach and Laura Whitton and Morris, \{Derek W.\} and Galina Apostolova and Georg Dechant",

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AU - Feurle, Patrick

AU - Abentung, Andreas

AU - Cera, Isabella

AU - Wahl, Nico

AU - Ablinger, Cornelia

AU - Bucher, Michael

AU - Stefan, Eduard

AU - Sprenger, Simon

AU - Teis, David

AU - Fischer, Andre

AU - Laighneach, Aodán

AU - Whitton, Laura

AU - Morris, Derek W.

AU - Apostolova, Galina

AU - Dechant, Georg

PY - 2021/2/1

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N2 - SATB2 is a schizophrenia risk gene and is genetically associated with human intelligence. How it affects cognition at molecular level is currently unknown. Here, we show that interactions between SATB2, a chromosomal scaffolding protein, and the inner nuclear membrane protein LEMD2 orchestrate the response of pyramidal neurons to neuronal activation. Exposure to novel environment in vivo causes changes in nuclear shape of CA1 hippocampal neurons via a SATB2-dependent mechanism. The activity-driven plasticity of the nuclear envelope requires not only SATB2, but also its protein interactor LEMD2 and the ESCRT-III/VPS4 membrane-remodeling complex. Furthermore, LEMD2 depletion in cortical neurons, similar to SATB2 ablation, affects neuronal activity-dependent regulation of multiple rapid and delayed primary response genes. In human genetic data, LEMD2-regulated genes are enriched for de novo mutations reported in intellectual disability and schizophrenia and are, like SATB2-regulated genes, enriched for common variants associated with schizophrenia and cognitive function. Hence, interactions between SATB2 and the inner nuclear membrane protein LEMD2 influence gene expression programs in pyramidal neurons that are linked to cognitive ability and psychiatric disorder etiology.

AB - SATB2 is a schizophrenia risk gene and is genetically associated with human intelligence. How it affects cognition at molecular level is currently unknown. Here, we show that interactions between SATB2, a chromosomal scaffolding protein, and the inner nuclear membrane protein LEMD2 orchestrate the response of pyramidal neurons to neuronal activation. Exposure to novel environment in vivo causes changes in nuclear shape of CA1 hippocampal neurons via a SATB2-dependent mechanism. The activity-driven plasticity of the nuclear envelope requires not only SATB2, but also its protein interactor LEMD2 and the ESCRT-III/VPS4 membrane-remodeling complex. Furthermore, LEMD2 depletion in cortical neurons, similar to SATB2 ablation, affects neuronal activity-dependent regulation of multiple rapid and delayed primary response genes. In human genetic data, LEMD2-regulated genes are enriched for de novo mutations reported in intellectual disability and schizophrenia and are, like SATB2-regulated genes, enriched for common variants associated with schizophrenia and cognitive function. Hence, interactions between SATB2 and the inner nuclear membrane protein LEMD2 influence gene expression programs in pyramidal neurons that are linked to cognitive ability and psychiatric disorder etiology.

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KW - chromatin

KW - human cognitive ability

KW - neuronal activity

KW - nuclear envelope

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ER -

SATB2-LEMD2 interaction links nuclear shape plasticity to regulation of cognition-related genes

Abstract

Keywords

Authors (Note for portal: view the doc link for the full list of authors)

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