Nanostructure and dynamics of N-truncated copper amyloid-β peptides from advanced X-ray absorption fine structure

Ekanayake, Ruwini S. K.; Streltsov, Victor A.; Best, Stephen P.; Chantler, Christopher T.

doi:10.1107/s2052252524001830

Int Union Crystallogr J

2024

DOI: 10.1107/s2052252524001830

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Nanostructure and dynamics of N-truncated copper amyloid-β peptides from advanced X-ray absorption fine structure

Ruwini S. K. Ekanayake,

Victor A. Streltsov,

Stephen P. Best

et al.

Abstract: An X-ray absorption spectroscopy (XAS) electrochemical cell was used to collect high-quality XAS measurements of N-truncated Cu:amyloid-β (Cu:Aβ) samples under near-physiological conditions. N-truncated Cu:Aβ peptide complexes contribute to oxidative stress and neurotoxicity in Alzheimer's patients' brains. However, the redox properties of copper in different Aβ peptide sequences are inconsistent. Therefore, the geometry of binding sites for the copper binding in Aβ4–8/12/16 was determined using novel advanced… Show more

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Cited by 2 publications

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A Copper-Binding Peptide with Therapeutic Potential against Alzheimer′s Disease: From the Blood–Brain Barrier to Metal Competition

López-Guerrero,

Posadas,

Sánchez-López

et al. 2024

ACS Chem. Neurosci.

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Alzheimer's disease (AD) is the most common form of dementia worldwide. AD brains are characterized by the accumulation of amyloid-β peptides (Aβ) that bind Cu 2+ and have been associated with several neurotoxic mechanisms. Although the use of copper chelators to prevent the formation of Cu 2+ -Aβ complexes has been proposed as a therapeutic strategy, recent studies show that copper is an important neuromodulator that is essential for a neuroprotective mechanism mediated by Cu 2+ binding to the cellular prion protein (PrP C ). Therefore, in addition to metal selectivity and blood−brain barrier (BBB) permeability, an emerging challenge for copper chelators is to prevent the formation of neurotoxic Cu 2+ -Aβ species without perturbing the neuroprotective Cu 2+ -PrP C interaction. Previously, we reported the design of a tetrapeptide (TP) that withdraws Cu 2+ from Aβ(1−16) and impacts the Cu 2+ -induced aggregation of Aβ(1−40). In this study, we improved the drug-like properties of TP in a BBB model, evaluated the metal selectivity of the optimized peptide (TP*), and tested its effect on Cu 2+ coordination to PrP C and proteins involved in copper trafficking, such as copper transporter 1 and albumin. Our results show that changing the stereochemistry of the first residue prevents TP degradation in the BBB model and coadministration of TP with a peptide that increases BBB permeability allows its passage through the BBB model. TP* is highly selective toward Cu 2+ in the presence of Zn 2+ ions, transfers Cu 2+ to copper-trafficking proteins, and forms a ternary TP*-Cu 2+ -PrP species that does not perturb the physiological conformation of PrP and displays only a minor impact in the neuroprotective Cu 2+ -dependent interaction of PrP C with the N-methyl-D-aspartate receptor. Overall, these results show that TP* displays desirable features for a copper chelator with therapeutic potential against AD. Moreover, this is the first study that explores the effect of a Cu 2+ chelator with therapeutic potential for AD on Cu 2+ coordination to PrP C (an emerging key player in AD pathology), integrating recent knowledge about metalloproteins involved in AD with the design of copper chelators against AD.

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A Copper-Binding Peptide with Therapeutic Potential against Alzheimer′s Disease: From the Blood–Brain Barrier to Metal Competition

López-Guerrero,

Posadas,

Sánchez-López

et al. 2024

ACS Chem. Neurosci.

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show abstract

X-ray absorption spectroscopy

Chantler,

Bunker,

D’Angelo

et al. 2024

Nat Rev Methods Primers

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Nanostructure and dynamics of N-truncated copper amyloid-β peptides from advanced X-ray absorption fine structure

Cited by 2 publications

References 97 publications

A Copper-Binding Peptide with Therapeutic Potential against Alzheimer′s Disease: From the Blood–Brain Barrier to Metal Competition

A Copper-Binding Peptide with Therapeutic Potential against Alzheimer′s Disease: From the Blood–Brain Barrier to Metal Competition

X-ray absorption spectroscopy

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