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Spatial transcriptomics reveals molecular dysfunction associated with cortical Lewy pathology

Author

Listed:
  • Thomas M. Goralski

    (Van Andel Institute
    Aligning Science Across Parkinson’s (ASAP) Collaborative Research Network)

  • Lindsay Meyerdirk

    (Van Andel Institute
    Aligning Science Across Parkinson’s (ASAP) Collaborative Research Network)

  • Libby Breton

    (Van Andel Institute
    Aligning Science Across Parkinson’s (ASAP) Collaborative Research Network)

  • Laura Brasseur

    (Van Andel Institute
    Aligning Science Across Parkinson’s (ASAP) Collaborative Research Network)

  • Kevin Kurgat

    (Van Andel Institute
    Aligning Science Across Parkinson’s (ASAP) Collaborative Research Network)

  • Daniella DeWeerd

    (Van Andel Institute
    Aligning Science Across Parkinson’s (ASAP) Collaborative Research Network)

  • Lisa Turner

    (Van Andel Institute Pathology Core)

  • Katelyn Becker

    (Van Andel Institute Genomics Core)

  • Marie Adams

    (Van Andel Institute Genomics Core)

  • Daniel J. Newhouse

    (NanoString Technologies)

  • Michael X. Henderson

    (Van Andel Institute
    Aligning Science Across Parkinson’s (ASAP) Collaborative Research Network)

Abstract

A key hallmark of Parkinson’s disease (PD) is Lewy pathology. Composed of α-synuclein, Lewy pathology is found both in dopaminergic neurons that modulate motor function, and cortical regions that control cognitive function. Recent work has established the molecular identity of dopaminergic neurons susceptible to death, but little is known about cortical neurons susceptible to Lewy pathology or molecular changes induced by aggregates. In the current study, we use spatial transcriptomics to capture whole transcriptome signatures from cortical neurons with α-synuclein pathology compared to neurons without pathology. We find, both in PD and related PD dementia, dementia with Lewy bodies and in the pre-formed fibril α-synucleinopathy mouse model, that specific classes of excitatory neurons are vulnerable to developing Lewy pathology. Further, we identify conserved gene expression changes in aggregate-bearing neurons that we designate the Lewy-associated molecular dysfunction from aggregates (LAMDA) signature. Neurons with aggregates downregulate synaptic, mitochondrial, ubiquitin-proteasome, endo-lysosomal, and cytoskeletal genes and upregulate DNA repair and complement/cytokine genes. Our results identify neurons vulnerable to Lewy pathology in the PD cortex and describe a conserved signature of molecular dysfunction in both mice and humans.

Suggested Citation

  • Thomas M. Goralski & Lindsay Meyerdirk & Libby Breton & Laura Brasseur & Kevin Kurgat & Daniella DeWeerd & Lisa Turner & Katelyn Becker & Marie Adams & Daniel J. Newhouse & Michael X. Henderson, 2024. "Spatial transcriptomics reveals molecular dysfunction associated with cortical Lewy pathology," Nature Communications, Nature, vol. 15(1), pages 1-20, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-47027-8
    DOI: 10.1038/s41467-024-47027-8
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