Journal article
Neurotoxic, Redox-competent Alzheimer's β-Amyloid Is Released from Lipid Membrane by Methionine Oxidation
KJ Barnham, GD Ciccotosto, AK Tickler, FE Ali, DG Smith, NA Williamson, YH Lam, D Carrington, D Tew, G Kocak, I Volitakis, F Separovic, CJ Barrow, JD Wade, CL Masters, RA Cherny, CC Curtain, AI Bush, R Cappai
Journal of Biological Chemistry | AMER SOC BIOCHEMISTRY MOLECULAR BIOLOGY INC | Published : 2003
Abstract
The amyloid β peptide is toxic to neurons, and it is believed that this toxicity plays a central role in the progression of Alzheimer's disease. The mechanism of this toxicity is contentious. Here we report that an Aβ peptide with the sulfur atom of Met-35 oxidized to a sulfoxide (Met(O)Aβ) is toxic to neuronal cells, and this toxicity is attenuated by the metal chelator clioquinol and completely rescued by catalase implicating the same toxicity mechanism as reduced Aβ. However, unlike the unoxidized peptide, Met(O)Aβ is unable to penetrate lipid membranes to form ion channel-like structures, and β-sheet formation is inhibited, phenomena that are central to some theories for Aβ toxicity. Our..
View full abstract