Issue 35, 2023

Nanoscale insights into the local structural rearrangements of amyloid-β induced by bexarotene

Abstract

A better understanding of the abnormal protein aggregation and the effect of anti-aggregation agents on the fibrillation pathways and the secondary structure of aggregates can determine strategies for the early treatment of dementia. Herein, we present a combination of experimental and theoretical studies providing new insights into the influence of the anti-aggregation drug bexarotene on the secondary structure of individual amyloid-β aggregates and its primary aggregation. The molecular rearrangements and the spatial distribution of β-sheets within individual aggregates were monitored at the nanoscale with infrared nanospectroscopy. We observed that bexarotene limits the parallel β-sheets formation, known to be highly abundant in fibrils at later phases of the amyloid-β aggregation composed of in-register cross-β structure. Moreover, we applied molecular dynamics to provide molecular-level insights into the investigated system. Both theoretical and experimental results revealed that bexarotene slows down the protein aggregation process via steric effects, largely prohibiting the antiparallel to parallel β-sheet rearrangement. We also found that bexarotene interacts not only via the single hydrogen bond formation with the peptide backbone but also with the amino acid side residue via a hydrophobic effect. The studied model of the drug-amyloid-β interaction contributes to a better understanding of the inhibition mechanism of the amyloid-β aggregation by the small molecule drugs. However, our nanoscale findings need to meet in vivo research requiring different analytical approaches.

Graphical abstract: Nanoscale insights into the local structural rearrangements of amyloid-β induced by bexarotene

Supplementary files

Article information

Article type
Paper
Submitted
07 Apr 2023
Accepted
08 Aug 2023
First published
09 Aug 2023

Nanoscale, 2023,15, 14606-14614

Nanoscale insights into the local structural rearrangements of amyloid-β induced by bexarotene

K. Sofińska, P. Batys, A. Cernescu, D. Ghosh, K. Skirlińska-Nosek, J. Barbasz, S. Seweryn, N. Wilkosz, R. Riek, M. Szymoński and E. Lipiec, Nanoscale, 2023, 15, 14606 DOI: 10.1039/D3NR01608K

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