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^*

^*Corresponding author for this work

Research output: Contribution to Journal › Article › Academic › peer-review

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
Pages (from-to)	1-21
Number of pages	21
Journal	The EMBO Journal
Volume	39
Issue number	11
Early online date	29 Apr 2020
DOIs	https://doi.org/10.15252/embj.2019104150
Publication status	Published - 2 Jun 2020

Funding

This work was supported by the National Research Foundation of Korea (NRF-2017R1A5A2015391 to Y.B) and the Institute for Basic Science (IBS-R002-D1 to E.K.). We would like to especially thank Drs. Tae Kim (Gwangju Institute of Science and Technology), Jeonghoon Woo (Chungnam Techno Park), and Eunee Lee (Yonsei University) for their invaluable inputs during the EEG recordings and analysis, as well as to Dr. Ganghoo Kim (Samsung Electronics) for his advice on numerous statistical issues and analyses. This work was supported by the National Research Foundation of Korea (NRF‐2017R1A5A2015391 to Y.B) and the Institute for Basic Science (IBS‐R002‐D1 to E.K.). We would like to especially thank Drs. Tae Kim (Gwangju Institute of Science and Technology), Jeonghoon Woo (Chungnam Techno Park), and Eunee Lee (Yonsei University) for their invaluable inputs during the EEG recordings and analysis, as well as to Dr. Ganghoo Kim (Samsung Electronics) for his advice on numerous statistical issues and analyses.

Funders	Funder number
Gwangju Institute of Science and Technology
Korea Basic Science Institute
National Research Foundation of Korea	NRF‐2017R1A5A2015391
Institute for Basic Science	IBS‐R002‐D1

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 17 Partnerships for the Goals

Keywords

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

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10.15252/embj.2019104150

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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.",

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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",

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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

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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.

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KW - receptor tyrosine phosphatase

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KW - synaptic adhesion

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

Abstract

Funding

UN SDGs

Keywords

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