Metal catalyzed oxidation of tyrosine residues by different oxidation systems of copper/hydrogen peroxide

Metal-catalysed oxidation (MCO) reactions result in the formation of reactive oxygen species (ROS) in biological systems. These ROS cause oxidative stress that contributes to a number of pathological processes leading to a variety of diseases. Tyrosine is one residue that is very susceptible to oxidative modification and the formation of dityrosine (DT) and 3,4-dihydroxyphenylalanine (DOPA) have been widely reported in a number of diseases. However, the mechanisms of MCO of tyrosine in biological systems are poorly understood and require further investigation. In this study we investigated the mechanism of DT and DOPA formation by MCO using N-acetyl tyrosine ethyl ester as a model for tyrosine in proteins and peptides. The results showed that DT formation could be observed upon Cu²⁺/H₂O₂ oxidation at pH 7.4. Our results indicate that it is unlikely to be via Fenton chemistry since Cu⁺/H₂O₂ oxidative conditions did not lead to the formation of DT.

Metal-catalyzed oxidative damage and oligomerization of the amyloid-β peptide of Alzheimer’s disease

The most common form of dementia in old age is Alzheimer’s disease (AD). The presence in the brain of senile plaque is the major pathological marker of AD. The plaques are primarily composed of aggregated amyloid-β peptide (Aβ). Aβ is a 40–42 amino acid peptide that is a proteolytic product derived from the β-amyloid precursor protein. The function of Aβ and the exact mechanism of Aβ aggregation and neurotoxicity are unclear. However, metal coordination by Aβ plays an important role in inducing aggregation and the generation of reactive oxygen species, which appears to be at least partially responsible for Aβ neurotoxicity. In this review we examine the role of copper and zinc ions in Aβ neurotoxicity, especially with regards to the generation of free radicals. We discuss the role of copper or zinc ions in oxidative damage and Aβ conformational changes and the relationship of these metals to AD.