Title ApoE isoforms inhibit amyloid aggregation of proinflammatory protein S100A9 /
Authors Ghosh, Shamasree ; Tamilselvi, Shanmugam ; Williams, Chloe ; Jayaweera, Sanduni W ; Iashchishyn, Igor A ; Šulskis, Darius ; Gilthorpe, Jonathan D ; Olofsson, Anders ; Smirnovas, Vytautas ; Svedružić, Željko M ; Morozova-Roche, Ludmilla A
DOI 10.3390/ijms25042114
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Is Part of International journal of molecular sciences.. Basel : MDPI. 2024, vol. 25, iss. 4, art. no. 2114, p. [1-21].. ISSN 1661-6596. eISSN 1422-0067
Keywords [eng] Alzheimer’s disease ; amyloid ; apolipoprotein E ; cytotoxicity ; fibrils ; inhibition ; neurodegeneration ; neuroinflammation ; proinflammatory ; S100A9
Abstract [eng] Increasing evidence suggests that the calcium-binding and proinflammatory protein S100A9 is an important player in neuroinflammation-mediated Alzheimer’s disease (AD). The amyloid co-aggregation of S100A9 with amyloid-β (Aβ) is an important hallmark of this pathology. Apolipoprotein E (ApoE) is also known to be one of the important genetic risk factors of AD. ApoE primarily exists in three isoforms, ApoE2 (Cys112/Cys158), ApoE3 (Cys112/Arg158), and ApoE4 (Arg112/Arg158). Even though the difference lies in just two amino acid residues, ApoE isoforms produce differential effects on the neuroinflammation and activation of the microglial state in AD. Here, we aim to understand the effect of the ApoE isoforms on the amyloid aggregation of S100A9. We found that both ApoE3 and ApoE4 suppress the aggregation of S100A9 in a concentration-dependent manner, even at sub-stoichiometric ratios compared to S100A9. These interactions lead to a reduction in the quantity and length of S100A9 fibrils. The inhibitory effect is more pronounced if ApoE isoforms are added in the lipid-free state versus lipidated ApoE. We found that, upon prolonged incubation, S100A9 and ApoE form low molecular weight complexes with stochiometric ratios of 1:1 and 2:1, which remain stable under SDS-gel conditions. These complexes self-assemble also under the native conditions; however, their interactions are transient, as revealed by glutaraldehyde cross-linking experiments and molecular dynamics (MD) simulation. MD simulation demonstrated that the lipid-binding C-terminal domain of ApoE and the second EF-hand calcium-binding motif of S100A9 are involved in these interactions. We found that amyloids of S100A9 are cytotoxic to neuroblastoma cells, and the presence of either ApoE isoforms does not change the level of their cytotoxicity. A significant inhibitory effect produced by both ApoE isoforms on S100A9 amyloid aggregation can modulate the amyloid-neuroinflammatory cascade in AD.
Published Basel : MDPI
Type Journal article
Language English
Publication date 2024
CC license CC license description