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Single-cell transcriptomics unveils molecular signatures of neuronal vulnerability in a mouse model of prion disease that overlap with Alzheimer’s disease

Author

Listed:
  • Jessy A. Slota

    (Public Health Agency of Canada
    University of Manitoba)

  • Lise Lamoureux

    (Public Health Agency of Canada)

  • Kathy L. Frost

    (Public Health Agency of Canada)

  • Babu V. Sajesh

    (Public Health Agency of Canada)

  • Stephanie A. Booth

    (Public Health Agency of Canada
    University of Manitoba)

Abstract

Understanding why certain neurons are more sensitive to dysfunction and death caused by misfolded proteins could provide therapeutically relevant insights into neurodegenerative disorders. Here, we harnessed single-cell transcriptomics to examine live neurons isolated from prion-infected female mice, aiming to identify and characterize prion-vulnerable neuronal subsets. Our analysis revealed distinct transcriptional responses across neuronal subsets, with a consistent pathway-level depletion of synaptic gene expression in damage-vulnerable neurons. By scoring neuronal damage based on the magnitude of depleted synaptic gene expression, we identified a diverse spectrum of prion-vulnerable glutamatergic, GABAergic, and medium spiny neurons. Comparison between prion-vulnerable and resistant neurons highlighted baseline gene expression differences that could influence neuronal vulnerability. For instance, the neuroprotective cold-shock protein Rbm3 exhibited higher baseline gene expression in prion-resistant neurons and was robustly upregulated across diverse neuronal classes upon prion infection. We also identified vulnerability-correlated transcripts that overlapped between prion and Alzheimer’s disease. Our findings not only demonstrate the potential of single-cell transcriptomics to identify damage-vulnerable neurons, but also provide molecular insights into neuronal vulnerability and highlight commonalties across neurodegenerative disorders.

Suggested Citation

  • Jessy A. Slota & Lise Lamoureux & Kathy L. Frost & Babu V. Sajesh & Stephanie A. Booth, 2024. "Single-cell transcriptomics unveils molecular signatures of neuronal vulnerability in a mouse model of prion disease that overlap with Alzheimer’s disease," Nature Communications, Nature, vol. 15(1), pages 1-19, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-54579-2
    DOI: 10.1038/s41467-024-54579-2
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    References listed on IDEAS

    as
    1. Kip D. Zimmerman & Mark A. Espeland & Carl D. Langefeld, 2021. "A practical solution to pseudoreplication bias in single-cell studies," Nature Communications, Nature, vol. 12(1), pages 1-9, December.
    2. Diego Peretti & Amandine Bastide & Helois Radford & Nicholas Verity & Colin Molloy & Maria Guerra Martin & Julie A. Moreno & Joern R. Steinert & Tim Smith & David Dinsdale & Anne E. Willis & Giovanna , 2015. "RBM3 mediates structural plasticity and protective effects of cooling in neurodegeneration," Nature, Nature, vol. 518(7538), pages 236-239, February.
    3. Malin K. Sandberg & Huda Al-Doujaily & Bernadette Sharps & Anthony R. Clarke & John Collinge, 2011. "Prion propagation and toxicity in vivo occur in two distinct mechanistic phases," Nature, Nature, vol. 470(7335), pages 540-542, February.
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    1. Marine Salery & Arthur Godino & Yu Qing Xu & John F. Fullard & Romain Durand-de Cuttoli & Alexa R. LaBanca & Leanne M. Holt & Scott J. Russo & Panos Roussos & Eric J. Nestler, 2025. "Cocaine-context memories are transcriptionally encoded in nucleus accumbens Arc ensembles," Nature Communications, Nature, vol. 16(1), pages 1-18, December.

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