journal articles
EARLY DETECTION OF ALZHEIMER’S DISEASE USING SMALL RNAS. RESULTS FROM THE EPAD COHORT
Tobias Sikosek, Marco Heuvelman, Jagoda Mika, Mustafa Kahraman, Julia Jehn, Maurice Frank, Alberto Daniel-Moreno, Jessika Ceiler, Jasmin Skottke, Marta Sanchez-Delgado, Patrick Neubert, Christina Rudolf, Kaja Tikk, Rastislav Horos, Jeffrey L. Cummings, Josie Butchart, Craig Ritchie, Jean Manson, Bruno R. Steinkraus, the EPAD consortium
BACKGROUND: Alzheimer's disease (AD) is the most common form of dementia, and early diagnosis is crucial to enable effective interventions. Currently, Alzheimer's disease is diagnosed through cognitive assessments, brain imaging and fluid biomarkers focused on determining amyloid (A) and, tau (T) protein levels as well as neurodegeneration (N) in the AT(N) framework. Prognostic biomarkers for predicting cognitive decline within the amyloid positive (Aβ+) individuals would further strengthen the framework.
OBJECTIVES: This study evaluated small RNAs as novel auxiliary biomarkers, independent of the AT(N) framework, either alone or in combination with established protein markers, for detecting the earliest cognitive decline in AD.
DESIGN: The European Prevention of Alzheimer’s Disease (EPAD) clinical trial platform is a prospective, multi-center study designed to investigate biomarkers for preclinical and prodromal AD.
SETTING: Peripheral whole blood RNA sequencing was performed on participants across Europe with no cognitive impairment or very mild cognitive impairment (MCI), stratified by cerebrospinal fluid amyloid levels.
PARTICIPANTS: 1,913 participants, 50 years or older and free of dementia diagnosis at enrollment, were analyzed.
INTERVENTION: (if any) Not applicable.
MEASUREMENTS: Ultra-deep small RNA sequencing was performed on whole blood samples using a refined blocking protocol to eliminate highly abundant erythroid small RNAs, and thereby to open sequencing bandwidth for the discovery of less abundant biomarker RNAs. Biomarker RNAs were deconvolved into plasma or blood cell origin and analyzed for functional relevance. We define high and low amyloid groups based on a cutoff on the p-tau181/Aβ1-42 ratio as determined from cerebrospinal fluid.
RESULTS: We identified a combination of small RNAs that predicted early cognitive decline (Clinical Dementia Rating of 0.5) with an area under the receiver-operator curve of ∼0.7. Notably, when focusing on individuals with cognitive decline and high amyloid burden (Aβ+), the predictive accuracy improved to an AUC of 0.77. This performance could be extended to the entire cohort when combining blood RNA and CSF amyloid markers (AUC 0.76). We conducted bioinformatic analyses to interrogate the likely functional relevance of these small RNAs, uncovering several links to dementia-relevant pathways, including neuronal, cardiovascular, and inflammatory activities. Our findings also suggest that small nucleolar RNAs warrant further investigation as potential disease-relevant markers, in addition to microRNAs.
CONCLUSIONS: Integrating small RNA biomarkers with protein-based assays offers preliminary evidence for stratifying MCI, particularly within the amyloid positive continuum. Small nucleolar RNAs and microRNAs warrant further exploration as complementary diagnostic tools, and their use may enable more precise and effective interventions.
CITATION:
Tobias Sikosek ; Marco Heuvelman ; Jagoda Mika ; Mustafa Kahraman ; Julia Jehn ; Maurice Frank ; Alberto Daniel-Moreno ; Jessika Ceiler ; Jasmin Skottke ; Marta Sanchez-Delgado ; Patrick Neubert ; Christina Rudolf ; Kaja Tikk ; Rastislav Horos ; Jeffrey L. Cummings ; Josie Butchart ; Craig Ritchie ; Jean Manson ; Bruno R. Steinkraus ; the EPAD consortium (2025): Early detection of Alzheimer’s disease using small RNAs. Results from the EPAD cohort. The Journal of Prevention of Alzheimer’s Disease (JPAD).https://doi.org/10.1016/j.tjpad.2025.100257