Ellen Hubin scite author profile

The aggregation and deposition of the amyloid-β peptide (Aβ) in the brain has been linked with neuronal death, which progresses in the diagnostic and pathological signs of Alzheimer’s disease (AD). The transition of an unstructured monomeric peptide into self-assembled and more structured aggregates is the crucial conversion from what appears to be a harmless polypeptide into a malignant form that causes synaptotoxicity and neuronal cell death. Despite efforts to identify the toxic form of Aβ, the development of effective treatments for AD is still limited by the highly transient and dynamic nature of interconverting forms of Aβ. The variability within the in vivo “pool” of different Aβ peptides is another complicating factor. Here we review the dynamical interplay between various components that influence the heterogeneous Aβ system, from intramolecular Aβ flexibility to intermolecular dynamics between various Aβ alloforms and external factors. The complex dynamics of Aβ contributes to the causative role of Aβ in the pathogenesis of AD.

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A comparative analysis of the aggregation behavior of amyloid‐β peptide variants

Vandersteen

Hubin

Sarroukh

et al. 2012

FEBS Letters

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a b s t r a c tAggregated forms of the amyloid-b peptide are hypothesized to act as the prime toxic agents in Alzheimer disease (AD). The in vivo amyloid-b peptide pool consists of both C-and N-terminally truncated or mutated peptides, and the composition thereof significantly determines AD risk. Other variations, such as biotinylation, are introduced as molecular tools to aid the understanding of disease mechanisms. Since these modifications have the potential to alter key aggregation properties of the amyloid-b peptide, we present a comparative study of the aggregation of a substantial set of the most common in vivo identified and in vitro produced amyloid-b peptides. Structured summary of protein interactions:Amyloid beta and Amyloid beta bind by fluorescence technology (View Interaction: 1, 2, 3, 4, 5) Amyloid beta and Amyloid beta bind by transmission electron microscopy (View Interaction: 1, 2) Amyloid beta and Amyloid beta bind by filter binding (View Interaction: 1,2,3)

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Ellen Hubin

Transient dynamics of Aβ contribute to toxicity in Alzheimer’s disease

A comparative analysis of the aggregation behavior of amyloid‐β peptide variants

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