Large-scale plasma proteomics uncovers preclinical molecular signatures of Parkinson’s disease and overlap with other neurodegenerative disorders

  1. Jan Homann
  2. Alexander G. Smith
  3. Sarah Morgan
  4. Elisabet A. Frick
  5. Fangyu Liu
  6. Vivian Viallon
  7. Rashmi Maurya
  8. Roxanna Korologou-Linden
  9. Valerija Dobricic
  10. Olena Ohlei
  11. Laura Deecke
  12. Fatema Hajizadah
  13. Yujia Zhao
  14. Fanny Artaud
  15. Karl Smith-Byrne
  16. P. Martijn Kolijn
  17. Jose Maria Huerta
  18. Nils Winter
  19. Marcela Guevara
  20. Ana Jimenez-Zabala
  21. María José Sánchez
  22. Camino Trobajo-Sanmartín
  23. Natalia Cabrera-Castro
  24. Ana Vinagre
  25. Dafina Petrova
  26. Sabina Sieri
  27. Tim J. Key
  28. Nick Wareham
  29. Rudolph Kaaks
  30. Ruth C. Travis
  31. Tim Hahn
  32. Susan Baker
  33. Sean M. Kelly
  34. Roel Vermeulen
  35. Susan Peters
  36. Giovanna Masala
  37. Carlotta Sacerdote
  38. Nancy Finkel
  39. The Global Neurodegeneration Proteomics Consortium (GNPC)
  40. Alexis Elbaz
  41. Moritz Hess
  42. Verena Katzke
  43. Lars Bertram
  44. Vilmundur Gudnason
  45. Oliver Robinson
  46. Honglei Chen
  47. Lefkos Middleton
  48. Laura M. Winchester
  49. Ioanna Tzoulaki
  50. Valborg Gudmundsdottir
  51. Keenan A. Walker
  52. Pietro Ferrari
  53. Elio Riboli
  54. Marc J. Gunter
  55. Christina M. Lill
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Abstract

Parkinson’s disease (PD) remains incurable, with a long preclinical phase currently undetectable by existing methods. In the largest proteomic study in neurodegenerative diseases to date, we analyzed blood samples from ∼74,000 individuals across discovery and validation cohorts. In the EPIC4PD discovery case-cohort, large-scale profiling of 7,285 proteins (SomaScan-7K) in 4,538 initially unaffected participants (574 incident cases) identified 17 proteins that predict PD up to 28 years before diagnosis. Additional proteins revealed sex-specific effects and time-dependent effect trajectories, capturing disease progression before symptom onset. Replication in three prospective cohorts (n=64,856; 1,034 incident cases) confirmed at least 12 key pre-diagnostic biomarkers with strong evidence, including TPPP2, HPGDS, ALPL, MFAP5, OGFR, ACAD8, TCL1A, GPC4, GSTA3, LCN2, KRAS, and GJA1. Preclinical biomarkers showed 86% concordant effect directions in independent prevalent PD cases (n=2,592; p=1.6×10−19). Furthermore, in the longitudinal Tracking PD cohort (n=794), HPGDS and MFAP5 also predicted cognitive decline. Notably, several of the identified PD biomarkers overlapped with those for incident Alzheimer’s disease and amyotrophic lateral sclerosis, indicating shared molecular signatures. A machine learning-derived protein score improved PD risk prediction in external validation. This extensive proteomics effort identified novel, actionable biomarkers opening new avenues for early PD risk stratification and precision medicine.

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