FMRP attenuates activity dependent modifications in the mitochondrial proteome

Pernille Bulow; Stephanie Zlatic; Peter Wenner; Gary Bassell; Victor Faundez

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Author Notes:

Peter A. Wenner, Email: pwenner@emory.edu

PB, GJB, PAW and VF conceived of the experimental design. PB performed all experiments. VF performed bioinformatic analysis. SZ performed Seahorse oximetry assays and data analysis. PB and VF wrote the manuscript. All co-authors contributed with comments and edits to the manuscript. All authors read and approved the final manuscript.

There are no interests to declare by all authors.

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Research Funding:

This work was supported by NIH Grants 1R01MH109026 (GJB), R01NS065992 (PAW), 1RF1AG060285 (VF).

Keywords:

FMRP
Homeostatic plasticity
Mitochondria
Proteomics
Neurodevelopmental disorder
Autism

FMRP attenuates activity dependent modifications in the mitochondrial proteome

Pernille Bulow, Emory University

Stephanie Zlatic, Emory University

Peter Wenner, Emory University

Gary Bassell, Emory University

Victor Faundez, Emory University

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Journal Title:

Molecular Brain

Volume:

Volume 14

Publisher:

BioMed Central | 2021-04-30

Type of Work:

Article | Final Publisher PDF

Permanent URL:

https://pid.emory.edu/ark:/25593/vvwwv

Publisher DOI:

http://doi.org/10.1186/s13041-021-00783-w

Abstract:

Homeostatic plasticity is necessary for the construction and maintenance of functional neuronal networks, but principal molecular mechanisms required for or modified by homeostatic plasticity are not well understood. We recently reported that homeostatic plasticity induced by activity deprivation is dysregulated in cortical neurons from Fragile X Mental Retardation protein (FMRP) knockout mice (Bulow et al. in Cell Rep 26: 1378-1388 e1373, 2019). These findings led us to hypothesize that identifying proteins sensitive to activity deprivation and/or FMRP expression could reveal pathways required for or modified by homeostatic plasticity. Here, we report an unbiased quantitative mass spectrometry used to quantify steady-state proteome changes following chronic activity deprivation in wild type and Fmr1−/y cortical neurons. Proteome hits responsive to both activity deprivation and the Fmr1−/y genotype were significantly annotated to mitochondria. We found an increased number of mitochondria annotated proteins whose expression was sensitive to activity deprivation in Fmr1−/y cortical neurons as compared to wild type neurons. These findings support a novel role of FMRP in attenuating mitochondrial proteome modifications induced by activity deprivation.

Copyright information:

This is an Open Access work distributed under the terms of the Creative Commons Attribution 4.0 International License (https://creativecommons.org/licenses/by/4.0/rdf).

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FMRP attenuates activity dependent modifications in the mitochondrial proteome

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