Issue 22, 2023

Site-specific chirality-conferred structural compaction differentially mediates the cytotoxicity of Aβ42

Abstract

Growing evidence supports the confident association between distinct amyloid beta (Aβ) isoforms and Alzheimer's Disease (AD) pathogenesis. As such, critical investigations seeking to uncover the translational factors contributing to Aβ toxicity represent a venture of significant value. Herein, we comprehensively assess full-length Aβ42 stereochemistry, with a specific focus on models that consider naturally-occurring isomerization of Asp and Ser residues. We customize various forms of D-isomerized Aβ as natural mimics, ranging from fragments containing a single D residue to full length Aβ42 that includes multiple isomerized residues, systematically evaluating their cytotoxicity against a neuronal cell line. Combining multidimensional ion mobility-mass spectrometry experimental data with replica exchange molecular dynamics simulations, we confirm that co-D-epimerization at Asp and Ser residues within Aβ42 in both N-terminal and core regions effectively reduces its cytotoxicity. We provide evidence that this rescuing effect is associated with the differential and domain-specific compaction and remodeling of Aβ42 secondary structure.

Graphical abstract: Site-specific chirality-conferred structural compaction differentially mediates the cytotoxicity of Aβ42

Supplementary files

Article information

Article type
Edge Article
Submitted
07 Feb 2023
Accepted
06 May 2023
First published
08 May 2023
This article is Open Access

All publication charges for this article have been paid for by the Royal Society of Chemistry
Creative Commons BY-NC license

Chem. Sci., 2023,14, 5936-5944

Site-specific chirality-conferred structural compaction differentially mediates the cytotoxicity of Aβ42

G. Li, C. K. Jeon, M. Ma, Y. Jia, Z. Zheng, D. G. Delafield, G. Lu, E. V. Romanova, J. V. Sweedler, B. T. Ruotolo and L. Li, Chem. Sci., 2023, 14, 5936 DOI: 10.1039/D3SC00678F

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