Small tau aggregates exhibit disease-specific molecular profiles across tauopathies

  1. Dorothea Böken
  2. Melissa Huang
  3. Yunzhao Wu
  4. Emre Fertan
  5. Jeff Y.L. Lam
  6. Georg Meisl
  7. Shaan Baig
  8. James B. Rowe
  9. Colin Smith
  10. Annelies Quaegebeur
  11. Dezerae Cox
  12. William A. McEwan
  13. David Klenerman
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Abstract

Tauopathies are neurodegenerative diseases marked by pathological tau aggregation. While disease-specific folds of insoluble tau filaments have been established, it remains unclear whether the smaller, earlier species also differ across tauopathies. Here, we characterise these small tau aggregates from post-mortem brain of individuals with Alzheimer’s disease (AD), progressive supranuclear palsy (PSP), corticobasal degeneration, Pick’s disease, and healthy controls. Using two complementary single-molecule assays, we confirm that small tau aggregates vary in abundance, morphology, and post-translational modifications. AD features specific long, fibrillar-shaped aggregates enriched in phospho-epitopes, while PSP aggregates are shorter, round, and selectively phosphorylated at serine-356, a site we identify as correlating with markers of inflammation and apoptosis. Aggregate properties co-vary with cellular stress signatures and align with disease-specific seeding profiles, suggesting distinct pathological mechanisms. These findings suggest that small tau aggregates are not a shared intermediate, but instead encode disease-specific mechanisms, with potential as both biomarkers and therapeutic targets.

Key points

Small tau aggregates show disease-specific signatures across tauopathies, differing in abundance, morphology, and post-translational modifications.

Tau aggregates in AD show enhanced phosphorylation density and structural heterogeneity, including a distinct population of long fibrillar species detectable in the soluble fraction.

Alzheimer’s disease is characterised by specific long, fibrillar-shaped tau aggregates enriched in disease-relevant phospho-epitopes.

PSP features round pSer356-positive aggregates that correlate with apoptotic and inflammatory markers, suggesting a distinct mechanism of toxicity.

Isoform-specific biosensor assays reveal divergent seeding behaviour: CBD shows strong 4R seeding, while PSP lacks seeding activity.

Features of small aggregates co-vary with distinct patterns of gliosis and cell stress, suggesting disease-specific mechanisms of tau-mediated toxicity.

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