Design, synthesis, and biophysical properties of a helical Aβ1–42 analog: Inhibition of fibrillogenesis and cytotoxicity

The aggregation of amyloid β-peptide (Aβ) into β-sheet-rich aggregates is a crucial step in the etiology of Alzheimer’s disease. Helical forms of Aβ have been suggested to be intermediates in the aggregation process of the peptide in aqueous phase, micelles and membranes. A stable helical Aβ analog would be useful to investigate the role of helical intermediates in fibrillization by Aβ. Here we designed a helical analog by simply cross-linking the Cys residues of A30C, G37C-Aβ1–42 with 1,6-bismaleimidohexane. The analog assumed a weak α-helical conformation in model membranes mimicking lipid raft microdomains of neuronal membranes under conditions in which the wild-type Aβ1–42 formed a β-sheet, indicating the cross-linking locally induced a helical conformation. Furthermore, addition of equimolar helical Aβ analog significantly reduced the amyloid formation and cytotoxicity by Aβ1–42. Thus, our helical Aβ1–42 is not only a model peptide to investigate the role of helical intermediates in fibrillization by Aβ, but also an inhibitor of Aβ–induced cytotoxicity.