Issue 35, 2023

Effect of strand register in the stability and reactivity of crystals from peptides forming amyloid fibrils

Abstract

Amyloids are cytotoxic protein aggregates that deposit in human tissues, leading to several health disorders. Their aggregates can also exhibit catalytic properties, and they have been used as candidates for the development of functional biomaterials. Despite being polymorphic, amyloids often assemble as cross-β fibrils formed by in-register β sheet layers. Recent studies of some amyloidogenic protein segments revealed that they crystallize as antiparallel out-of-register β sheets. Such arrangement has been proposed to be responsible for the cytotoxicity in amyloid diseases, however, there is still no consensus on the molecular mechanism. Interestingly, two amyloidogenic peptide segments, NFGAILS and FGAILSS, arrange into out-of-register and in-register β sheets, respectively, even though they solely differ by one aminoacid residue at both termini. In this work, we used density functional theory (DFT) to address how the strand register contributes into the packing and molecular properties of the NFGAILS and FGAILSS crystals. Our results show that the out-of-register structure is substantially more stable, at 0 K, than the in-register one due to stronger inter-strand contacts. Based on an analysis of the electrostatic potential of the crystal slabs, it is suggested that the out-of-register may potentially interact with negatively charged groups, like those found in cell membranes. Moreover, calculated reactivity descriptors indicate a similar outcome, where only the out-of-register peptide exhibits intrinsic reactive surface sites at the exposed amine and carboxylic groups. It is therefore suggested that the out-of-register arrangement may indeed be crucial for amyloid cytotoxicity. The findings presented here could help to further our understanding of amyloid aggregation, function, and toxicity.

Graphical abstract: Effect of strand register in the stability and reactivity of crystals from peptides forming amyloid fibrils

Supplementary files

Article information

Article type
Paper
Submitted
18 Apr 2023
Accepted
18 Aug 2023
First published
21 Aug 2023

Phys. Chem. Chem. Phys., 2023,25, 23885-23893

Effect of strand register in the stability and reactivity of crystals from peptides forming amyloid fibrils

C. Muñoz-Gutiérrez, F. Adasme-Carreño, J. Alzate-Morales and J. Ireta, Phys. Chem. Chem. Phys., 2023, 25, 23885 DOI: 10.1039/D3CP01762A

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