FUS Mislocalization Rewires a Cortical Gene Network to Drive Cognitive and Behavioral Impairment in ALS

  1. Raphaelle Cassel
  2. Félicie Lorenc
  3. Aurélie Bombardier
  4. Claudia De Tapia
  5. Stéphane Dieterle
  6. Cláudio Gouveia Roque
  7. Christopher A. Jackson
  8. Geoffrey Stuart-Lopez
  9. Caroline Rouaux
  10. Simon J. Guillot
  11. Marie-Christine Birling
  12. Pascal Kessler
  13. Maurizio Grassano
  14. Bryan Traynor
  15. Adriano Chio
  16. Raju Roy
  17. James Shorter
  18. Fergal M. Waldron
  19. Jenna M. Gregory
  20. Hemali Phatnani
  21. Luc Dupuis
  22. Salim Megat
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Abstract

Cognitive and behavioral impairment affects up to half of individuals with amyotrophic lateral sclerosis (ALS), but their molecular origin remains unresolved. Here, we identify mislocalization of the RNA-binding protein FUS in cortical neurons as a defining feature in ALS patients with cognitive impairment (ALS-ci). Selective mislocalization of FUS in adult cortical projection neurons in mice is sufficient to trigger ALS-ci– and ALS with behavioral impairment (ALS-bi)–like phenotypes, including deficits in sociability, and neurodegeneration. Single-nucleus transcriptomics reveal a conserved FUS-dependent gene network downregulated in these mice and ALS-ci patients. This regulon is enriched for ALS genetic risk factors and newly implicatesFBXO16in ALS-bi. Carriers of protein-truncatingFBXO16variants display behavioral abnormalities, frontotemporal atrophy, and increased levels of dementia-linked biomarkers. These findings define a neuron-intrinsic mechanism for cognitive and behavioral dysfunction in ALS and nominate FUS mislocalization and its downstream gene network as therapeutic targets.

Graphical abstract

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Highlights

  • Transcriptional fingerprint of FUS mislocalization is observed in cortical projection neurons of ALS patients

  • FUS mislocalization leads to downregulation in cortical projection neurons of a cross-species conserved regulon shared with TDP43

  • FUS mislocalization in adult cortical projection neurons is sufficient to trigger ALS related cognitive and behavioral impairment in mouse models

  • FUS is mislocalized and the FUS regulon is downregulated in ALS patients with cognitive impairment

  • The FUS regulon is enriched in genetic risk factors for cognitive and behavioral impairment in ALS

  • Carriers of protein truncating variants ofFBXO16, one of the FUS regulon genes, display behavioral, imaging and biochemical markers of ALS with behavioral impairment.

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