# Effect of Metals on Kinetic Pathways of Amyloid-\b{eta} Aggregation

**Authors:** Francis Hane, Zoya Leonenko

arXiv: 1704.08315 · 2017-04-28

## TL;DR

This paper reviews how metal ions like copper and zinc influence the amyloid-beta aggregation pathways, potentially leading to more toxic oligomeric species relevant to Alzheimer's disease.

## Contribution

It synthesizes current literature to highlight the role of metal ions in altering amyloid-beta misfolding pathways and increasing neurotoxicity.

## Key findings

- Metal ions modify amyloid-beta aggregation pathways.
- Altered pathways may produce more toxic oligomers.
- Metal presence correlates with increased neurotoxicity.

## Abstract

Metal ions, including copper and zinc, have been implicated in the pathogenesis of Alzheimers disease through a variety of mechanisms including increased amyloid \b{eta} affinity and redox effects. Recent reports have demonstrated that the amyloid \b{eta} monomer does not necessarily travel through a definitive intermediary en-route to a stable amyloid fibril structure. Rather, amyloid \b{eta} misfolding may follow a variety of pathways resulting in a fibrillar end-product or a variety of oligomeric end-products with a diversity of structures and sizes. The presence of metal ions has been demonstrated to alter the kinetic pathway of the amyloid \b{eta} peptide which may lead to more toxic oligomeric end-products. In this work, we review the contemporary literature supporting the hypothesis that metal ions alter the reaction pathway of amyloid \b{eta} misfolding leading to more neurotoxic species.

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Source: https://tomesphere.com/paper/1704.08315