Dysregulation of Synaptic and Developmental Transcriptomic/Proteomic Profiles upon Depletion of MUNC18-1

Annemiek A. Van Berkel, Frank Koopmans, Miguel Angel Gonzalez-Lozano, Hanna C.A. Lammertse, Femke Feringa, Julien Bryois, Patrick F. Sullivan, August B. Smit, Ruud F. Toonen, Matthijs Verhage*

*Corresponding author for this work

Research output: Contribution to JournalArticleAcademicpeer-review

Abstract

Absence of presynaptic protein MUNC18-1 (gene: Stxbp1) leads to neuronal cell death at an immature stage before synapse formation. Here, we performed transcriptomic and proteomic profiling of immature Stxbp1 knock-out (KO) cells to discover which cellular processes depend on MUNC18-1. Hippocampi of Stxbp1 KO mice showed cell type-specific dysregulation of 2123 transcripts primarily related to synaptic transmission and immune response. To further investigate direct, neuron-specific effects of MUNC18-1 depletion, a proteomic screen was performed on murine neuronal cultures at two developmental timepoints before onset of neuron degeneration. 399 proteins were differentially expressed, which were primarily involved in synaptic function (especially synaptic vesicle exocytosis) and neuron development. We further show that many of the downregu-lated proteins on loss of MUNC18-1 are normally upregulated during this developmental stage. Thus, absence of MUNC18-1 extensively dysregulates the transcriptome and proteome, primarily affecting synaptic and developmental profiles. Lack of synaptic activity is unlikely to underlie these effects, as the changes were observed in immature neurons without functional synapses, and minimal overlap was found to activity-dependent proteins. We hypothesize that presence of MUNC18-1 is essential to advance neuron development, serving as a “checkpoint” for neurons to initiate cell death in its absence.

Original languageEnglish
Pages (from-to)1-14
Number of pages14
JournaleNeuro
Volume9
Issue number6
Early online date18 Oct 2022
DOIs
Publication statusPublished - Dec 2022

Bibliographical note

Funding Information:
This work was supported by the European Union ERC Advanced Grant 322966 (to M.V.), the Horizon 2020 Grant COSYN (RIA Grant Agreement 610307; to M.V. and P.F.S.), the Orphan Disease Center/Million Dollar Bike Ride Grant MDBR-20-136-STXBP1 (to M.V.), the Lundbeckfondsen Grant R277-2018-802 (to M.V.), and the Swedish Research Council Grant 538-2013-8865 (to P.F.S.).

Publisher Copyright:
© 2022 Van Berkel et al.

Funding

This work was supported by the European Union ERC Advanced Grant 322966 (to M.V.), the Horizon 2020 Grant COSYN (RIA Grant Agreement 610307; to M.V. and P.F.S.), the Orphan Disease Center/Million Dollar Bike Ride Grant MDBR-20-136-STXBP1 (to M.V.), the Lundbeckfondsen Grant R277-2018-802 (to M.V.), and the Swedish Research Council Grant 538-2013-8865 (to P.F.S.).

FundersFunder number
Royal Irish Academy
European Union ERC
Horizon 2020
Seventh Framework Programme322966, 610307
Vetenskapsrådet538-2013-8865
Orphan Disease Center/MillionMDBR-20-136-STXBP1, R277-2018-802

    Keywords

    • MUNC18-1
    • neurodegeneration
    • neurodevelopment
    • proteomics
    • synapse
    • transcriptomics

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