Splice-dependent trans-synaptic PTPδ–IL1RAPL1 interaction regulates synapse formation and non-REM sleep

Haram Park; Yeonsoo Choi; Hwajin Jung; Seoyeong Kim; Suho Lee; Hyemin Han; Hanseul Kweon; Suwon Kang; Woong Seob Sim; Frank Koopmans; Esther Yang; Hyun Kim; August B. Smit; Yong Chul Bae; Eunjoon Kim

doi:10.15252/embj.2019104150

Splice-dependent trans-synaptic PTPδ–IL1RAPL1 interaction regulates synapse formation and non-REM sleep

Haram Park
, Yeonsoo Choi
, Hwajin Jung
, Seoyeong Kim
, Suho Lee
, Hyemin Han
, Hanseul Kweon
, Suwon Kang
, Woong Seob Sim
, Frank Koopmans
, Esther Yang
, Hyun Kim
, August B. Smit
, Yong Chul Bae
, Eunjoon Kim

Institute for Basic Science
Korea Advanced Institute of Science and Technology
Kyungpook National University
Amsterdam University Medical Centers location VUmc
Korea University

Research output: Contribution to journal › Article › peer-review

29 Scopus citations

Abstract

Alternative splicing regulates trans-synaptic adhesions and synapse development, but supporting in vivo evidence is limited. PTPδ, a receptor tyrosine phosphatase adhering to multiple synaptic adhesion molecules, is associated with various neuropsychiatric disorders; however, its in vivo functions remain unclear. Here, we show that PTPδ is mainly present at excitatory presynaptic sites by endogenous PTPδ tagging. Global PTPδ deletion in mice leads to input-specific decreases in excitatory synapse development and strength. This involves tyrosine dephosphorylation and synaptic loss of IL1RAPL1, a postsynaptic partner of PTPδ requiring the PTPδ-meA splice insert for binding. Importantly, PTPδ-mutant mice lacking the PTPδ-meA insert, and thus lacking the PTPδ interaction with IL1RAPL1 but not other postsynaptic partners, recapitulate biochemical and synaptic phenotypes of global PTPδ-mutant mice. Behaviorally, both global and meA-specific PTPδ-mutant mice display abnormal sleep behavior and non-REM rhythms. Therefore, alternative splicing in PTPδ regulates excitatory synapse development and sleep by modulating a specific trans-synaptic adhesion.

Original language	English
Article number	e104150
Journal	EMBO Journal
Volume	39
Issue number	11
DOIs	https://doi.org/10.15252/embj.2019104150
State	Published - 2 Jun 2020

Keywords

alternative splicing
receptor tyrosine phosphatase
sleep behavior and rhythm
synapse development
synaptic adhesion

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@article{61ec787089364776bdcc8cf040db8a37,

title = "Splice-dependent trans-synaptic PTPδ–IL1RAPL1 interaction regulates synapse formation and non-REM sleep",

abstract = "Alternative splicing regulates trans-synaptic adhesions and synapse development, but supporting in vivo evidence is limited. PTPδ, a receptor tyrosine phosphatase adhering to multiple synaptic adhesion molecules, is associated with various neuropsychiatric disorders; however, its in vivo functions remain unclear. Here, we show that PTPδ is mainly present at excitatory presynaptic sites by endogenous PTPδ tagging. Global PTPδ deletion in mice leads to input-specific decreases in excitatory synapse development and strength. This involves tyrosine dephosphorylation and synaptic loss of IL1RAPL1, a postsynaptic partner of PTPδ requiring the PTPδ-meA splice insert for binding. Importantly, PTPδ-mutant mice lacking the PTPδ-meA insert, and thus lacking the PTPδ interaction with IL1RAPL1 but not other postsynaptic partners, recapitulate biochemical and synaptic phenotypes of global PTPδ-mutant mice. Behaviorally, both global and meA-specific PTPδ-mutant mice display abnormal sleep behavior and non-REM rhythms. Therefore, alternative splicing in PTPδ regulates excitatory synapse development and sleep by modulating a specific trans-synaptic adhesion.",

keywords = "alternative splicing, receptor tyrosine phosphatase, sleep behavior and rhythm, synapse development, synaptic adhesion",

author = "Haram Park and Yeonsoo Choi and Hwajin Jung and Seoyeong Kim and Suho Lee and Hyemin Han and Hanseul Kweon and Suwon Kang and Sim, \{Woong Seob\} and Frank Koopmans and Esther Yang and Hyun Kim and Smit, \{August B.\} and Bae, \{Yong Chul\} and Eunjoon Kim",

note = "Publisher Copyright: {\textcopyright} 2020 The Authors. Published under the terms of the CC BY 4.0 license",

year = "2020",

month = jun,

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doi = "10.15252/embj.2019104150",

language = "English",

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T1 - Splice-dependent trans-synaptic PTPδ–IL1RAPL1 interaction regulates synapse formation and non-REM sleep

AU - Park, Haram

AU - Choi, Yeonsoo

AU - Jung, Hwajin

AU - Kim, Seoyeong

AU - Lee, Suho

AU - Han, Hyemin

AU - Kweon, Hanseul

AU - Kang, Suwon

AU - Sim, Woong Seob

AU - Koopmans, Frank

AU - Yang, Esther

AU - Kim, Hyun

AU - Smit, August B.

AU - Bae, Yong Chul

AU - Kim, Eunjoon

PY - 2020/6/2

Y1 - 2020/6/2

N2 - Alternative splicing regulates trans-synaptic adhesions and synapse development, but supporting in vivo evidence is limited. PTPδ, a receptor tyrosine phosphatase adhering to multiple synaptic adhesion molecules, is associated with various neuropsychiatric disorders; however, its in vivo functions remain unclear. Here, we show that PTPδ is mainly present at excitatory presynaptic sites by endogenous PTPδ tagging. Global PTPδ deletion in mice leads to input-specific decreases in excitatory synapse development and strength. This involves tyrosine dephosphorylation and synaptic loss of IL1RAPL1, a postsynaptic partner of PTPδ requiring the PTPδ-meA splice insert for binding. Importantly, PTPδ-mutant mice lacking the PTPδ-meA insert, and thus lacking the PTPδ interaction with IL1RAPL1 but not other postsynaptic partners, recapitulate biochemical and synaptic phenotypes of global PTPδ-mutant mice. Behaviorally, both global and meA-specific PTPδ-mutant mice display abnormal sleep behavior and non-REM rhythms. Therefore, alternative splicing in PTPδ regulates excitatory synapse development and sleep by modulating a specific trans-synaptic adhesion.

AB - Alternative splicing regulates trans-synaptic adhesions and synapse development, but supporting in vivo evidence is limited. PTPδ, a receptor tyrosine phosphatase adhering to multiple synaptic adhesion molecules, is associated with various neuropsychiatric disorders; however, its in vivo functions remain unclear. Here, we show that PTPδ is mainly present at excitatory presynaptic sites by endogenous PTPδ tagging. Global PTPδ deletion in mice leads to input-specific decreases in excitatory synapse development and strength. This involves tyrosine dephosphorylation and synaptic loss of IL1RAPL1, a postsynaptic partner of PTPδ requiring the PTPδ-meA splice insert for binding. Importantly, PTPδ-mutant mice lacking the PTPδ-meA insert, and thus lacking the PTPδ interaction with IL1RAPL1 but not other postsynaptic partners, recapitulate biochemical and synaptic phenotypes of global PTPδ-mutant mice. Behaviorally, both global and meA-specific PTPδ-mutant mice display abnormal sleep behavior and non-REM rhythms. Therefore, alternative splicing in PTPδ regulates excitatory synapse development and sleep by modulating a specific trans-synaptic adhesion.

KW - alternative splicing

KW - receptor tyrosine phosphatase

KW - sleep behavior and rhythm

KW - synapse development

KW - synaptic adhesion

UR - https://www.scopus.com/pages/publications/85084231047

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DO - 10.15252/embj.2019104150

M3 - Article

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AN - SCOPUS:85084231047

SN - 0261-4189

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JO - EMBO Journal

JF - EMBO Journal

IS - 11

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ER -

Splice-dependent trans-synaptic PTPδ–IL1RAPL1 interaction regulates synapse formation and non-REM sleep

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