Deborah J. Tew scite author profile

Alzheimer's disease (AD) is characterized by the presence of neurofibrillary tangles and amyloid plaques, which are abnormal protein deposits. The major constituent of the plaques is the neurotoxic beta-amyloid peptide (Abeta); the genetics of familial AD support a direct role for this peptide in AD. Abeta neurotoxicity is linked to hydrogen peroxide formation. Abeta coordinates the redox active transition metals, copper and iron, to catalytically generate reactive oxygen species. The chemical mechanism underlying this process is not well defined. With the use of density functional theory calculations to delineate the chemical mechanisms that drive the catalytic production of H2O2 by Abeta/Cu, tyrosine10 (Y10) was identified as a pivotal residue for this reaction to proceed. The relative stability of tyrosyl radicals facilitates the electron transfers that are required to drive the reaction. Confirming the theoretical results, mutation of the tyrosine residue to alanine inhibited H2O2 production, Cu-induced radicalization, dityrosine cross-linking, and neurotoxicity.

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Dopamine promotes α‐synuclein aggregation into SDS‐resistant soluble oligomers via a distinct folding pathway

Cappai

Leck²,

et al. 2005

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Dopamine (DA) and alpha-synuclein (alpha-SN) are two key molecules associated with Parkinson's disease (PD). We have identified a novel action of DA in the initial phase of alpha-SN aggregation and demonstrate that DA induces alpha-SN to form soluble, SDS-resistant oligomers. The DA:alpha-SN oligomeric species are not amyloidogenic as they do not react with thioflavin T and lack the typical amyloid fibril structures as visualized with electron microscopy. Circular dichroism studies indicate that in the presence of lipid membranes DA interacts with alpha-SN, causing an alteration to the structure of the protein. Furthermore, DA inhibited the formation of iron-induced alpha-SN amyloidogenic aggregates, suggesting that DA acts as a dominant modulator of alpha-SN aggregation. These observations support the paradigm emerging for other neurodegenerative diseases that the toxic species is represented by a soluble oligomer and not the insoluble fibril.

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Platinum-based inhibitors of amyloid-β as therapeutic agents for Alzheimer's disease

Barnham

Kenche

Ciccotosto

et al. 2008

Proc. Natl. Acad. Sci. U.S.A.

188

198

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Amelyoid-␤ peptide (A␤) is a major causative agent responsible for Alzheimer's disease (AD). A␤ contains a high affinity metal binding site that modulates peptide aggregation and toxicity. Therefore, identifying molecules targeting this site represents a valid therapeutic strategy. To test this hypothesis, a range of L-PtCl2 (L ‫؍‬ 1,10-phenanthroline derivatives) complexes were examined and shown to bind to A␤, inhibit neurotoxicity and rescue A␤-induced synaptotoxicity in mouse hippocampal slices. Coordination of the complexes to A␤ altered the chemical properties of the peptide inhibiting amyloid formation and the generation of reactive oxygen species. In comparison, the classic anticancer drug cisplatin did not affect any of the biochemical and cellular effects of A␤. This implies that the planar aromatic 1,10-phenanthroline ligands L confer some specificity for A␤ onto the platinum complexes. The potent effect of the L-PtCl 2 complexes identifies this class of compounds as therapeutic agents for AD.

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Deborah J. Tew

Tyrosine gated electron transfer is key to the toxic mechanism of Alzheimer's disease β‐amyloid

Dopamine promotes α‐synuclein aggregation into SDS‐resistant soluble oligomers via a distinct folding pathway

Platinum-based inhibitors of amyloid-β as therapeutic agents for Alzheimer's disease

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