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| Home > Documents in Process > ApoE4 accelerates p ‐tau driven tau aggregation and spread in Alzheimer's Disease in a allele‐dose dependent manner |
| Home > Documents in Process > ApoE4 accelerates p ‐tau driven tau aggregation and spread in Alzheimer's Disease in a allele‐dose dependent manner |
| Abstract/Journal Article | DZNE-2026-00050 |
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2025
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Please use a persistent id in citations: doi:10.1002/alz70856_105476
Abstract: Background: Understanding factors influencing Alzheimer's disease (AD) progression is crucial for optimising treatment timing and targets. A major genetic risk factor, the Apolipoprotein E ε4 allele (ApoE4), is associated with earlier tau pathology accumulation and spread at lower amyloid-beta (Aβ) levels (Steward, JAMA Neurol, 2023). However, the mechanisms underlying this association remain unclear (Figure 1A). Therefore, we assessed how ApoE4 accelerates Aβ-related tau aggregation. Specifically, we investigated whether ApoE4 promotes Aβ-driven secretion of phospho tau (p-tau) or ptau dependent tau aggregation, and determined whether ApoE4 promotes tau pathology in an allele dose-dependent manner. Method: We analysed data from APOE-genotyped AD-spectrum participants in the ADNI (n = 201) and A4 cohorts (n = 200), integrating cross-sectional fluid biomarker measures (plasma ptau217, CSF ptau181) and longitudinal Flortaucipir tau-PET and Florbetaben/Florbetapir amyloid-PET. Using linear regression, we assessed whether the interaction between amyloid-PET and ApoE4 allele dosage influences plasma ptau217, and replicated this analysis with CSF ptau181 in an ADNI subset (n = 115). Secondly, to investigate whether ApoE4 enhances tau fibrilisation and spread, we calculated annual tau-PET SUVR accumulation rates across a connectivity-based tau spreading stages, using our prior methodology (e.g. Franzmeier, Sci Adv, 2020). Linear regressions tested the interaction between ptau217 (or CSF ptau181) and ApoE4 allele count on connectivity-mediated tau-PET accumulation in four connectivity stages that capture progressive tau spread. Result: ApoE4 allele dosage did not moderate the relationship between amyloid-PET and plasma ptau217 in either sample (Figure 1B, ADNI: β=0.13, p = 0.32; A4: β=-0.20, p = 0.17) nor between amyloid-PET and CSF ptau181 in ADNI subsample (Figure 1B, b=-.16, p = 0.42). However, a significant ApoE4 allele dose effect was observed in moderating the relationship between plasma ptau217 and tau-PET accumulation across connectivity stages independent of amyloid burden (Figure 1C, ADNI: Q1–4 mean β=0.44, Q1-4 p <0.001; A4: Q1-4 mean β = 0.56, Q1,2,4 p <0.001, Q3 p <0.05), with the strongest effect in individuals carrying two ApoE4 alleles. Conclusion: ApoE4 exerts an allele dose-dependent effect on ptau induced tau aggregation, driving accelerated tau spreading at lower Aβ levels. This suggests that attenuating soluble ptau increases in ApoE4 carriers may mitigate downstream tau fibrilisation and delay dementia onset, highlighting the potential of personalised therapeutic approaches.
Keyword(s): Humans (MeSH) ; tau Proteins: cerebrospinal fluid (MeSH) ; tau Proteins: metabolism (MeSH) ; tau Proteins: blood (MeSH) ; Alzheimer Disease: genetics (MeSH) ; Alzheimer Disease: diagnostic imaging (MeSH) ; Alzheimer Disease: cerebrospinal fluid (MeSH) ; Alzheimer Disease: metabolism (MeSH) ; Biomarkers: cerebrospinal fluid (MeSH) ; Biomarkers: blood (MeSH) ; Female (MeSH) ; Male (MeSH) ; Apolipoprotein E4: genetics (MeSH) ; Amyloid beta-Peptides: metabolism (MeSH) ; Amyloid beta-Peptides: cerebrospinal fluid (MeSH) ; Aged (MeSH) ; Positron-Emission Tomography (MeSH) ; Aged, 80 and over (MeSH) ; Cross-Sectional Studies (MeSH) ; Alleles (MeSH) ; Brain: diagnostic imaging (MeSH) ; Brain: metabolism (MeSH) ; tau Proteins ; Biomarkers ; Apolipoprotein E4 ; Amyloid beta-Peptides ; MAPT protein, human
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