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. 2025 May 7;113(9):1363-1379.e9.
doi: 10.1016/j.neuron.2025.02.014. Epub 2025 Mar 14.

Multi-cohort cerebrospinal fluid proteomics identifies robust molecular signatures across the Alzheimer disease continuum

Muhammad Ali  1 Jigyasha Timsina  1 Daniel Western  1 Menghan Liu  1 Aleksandra Beric  1 John Budde  1 Anh Do  1 Gyujin Heo  1 Lihua Wang  1 Jen Gentsch  1 Suzanne E Schindler  2 John C Morris  2 David M Holtzman  2 Agustin Ruiz  3 Ignacio Alvarez  4 Miquel Aguilar  4 Pau Pastor  4 Jarod Rutledge  5 Hamilton Oh  5 Edward N Wilson  5 Yann Le Guen  5 Rana R Khalid  6 Knight Alzheimer Disease Research Center (Knight ADRC)  7 Alzheimer Disease Neuroimaging Initiative (ADNI)Fundació ACE Alzheimer Center Barcelona (FACE)Barcelona-1Stanford Alzheimer Disease Research Center (Stanford ADRC)Chloe Robins  8 David J Pulford  8 Rawan Tarawneh  9 Laura Ibanez  1 Tony Wyss-Coray  5 Yun Ju Sung  1 Carlos Cruchaga  10
Affiliations

Multi-cohort cerebrospinal fluid proteomics identifies robust molecular signatures across the Alzheimer disease continuum

Muhammad Ali et al. Neuron. .

Abstract

Changes in β-amyloid (Aβ) and hyperphosphorylated tau (T) in brain and cerebrospinal fluid (CSF) precede Alzheimer's disease (AD) symptoms, making the CSF proteome a potential avenue to understand disease pathophysiology and facilitate reliable diagnostics and therapies. Using the AT framework and a three-stage study design (discovery, replication, and meta-analysis), we identified 2,173 analytes (2,029 unique proteins) dysregulated in AD. Of these, 865 (43%) were previously reported, and 1,164 (57%) are novel. The identified proteins cluster in four different pseudo-trajectories groups spanning the AD continuum and were enriched in pathways including neuronal death, apoptosis, and tau phosphorylation (early stages), microglia dysregulation and endolysosomal dysfunction (mid stages), brain plasticity and longevity (mid stages), and microglia-neuron crosstalk (late stages). Using machine learning, we created and validated highly accurate and replicable (area under the curve [AUC] > 0.90) models that predict AD biomarker positivity and clinical status. These models can also identify people that will convert to AD.

Keywords: ATN; Alzheimer disease; CSF; SomaScan; biomarkers; dementia progression; machine learning; proteomics; pseudo-trajectory.

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Conflict of interest statement

Declaration of interests C.C. has received research support from GSK and EISAI. C.C. is a member of the scientific advisory board of Circular Genomics and owns stocks. C.C. is a member of the scientific advisory board of ADmit.

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