Copper-assisted interaction between amyloid-ß and prion: Ternary metal complexes with Aß N-terminus and octarepeat

Alzheimer and prion diseases are neurodegenerative disorders in which amyloid-beta (Aβ) and prion protein (PrP), respectively, failed their normal functions inducing cellular apoptosis. Histidine-based high-affinity metal-binding sites in the N-terminus domains, which favor the binding of transition...

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Veröffentlicht in:	Inorganica Chimica Acta 2018-03, Vol.472, p.93
Hauptverfasser:	Magrì, Antonio, Di Natale, Giuseppe, Rizzarelli, Enrico
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Sprache:	eng
Schlagworte:	Affinity Apoptosis Binding sites Coordination compounds Copper Copper compounds Histidine Peptides Prions Proteins Spectrum analysis Transition metals
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description	Alzheimer and prion diseases are neurodegenerative disorders in which amyloid-beta (Aβ) and prion protein (PrP), respectively, failed their normal functions inducing cellular apoptosis. Histidine-based high-affinity metal-binding sites in the N-terminus domains, which favor the binding of transition metals such as copper and zinc, feature both Aβ and PrP. Recently, the biological role of copper(II) on the two protein interaction has been revealed. Many studies have been focused on copper(II) binding affinity for both Aβ or prion protein while ternary complexes formed by this metal with both proteins have not been investigated. Here we report a combined ESI MS, potentiometric and spectroscopic (CD, UV-Vis) study on ternary complexes formed by copper(II) ion with Aβ and PrP peptides fragments containing potential metal binding sites. In particular, Aβ(1-4), Aβ(1-6), Ac-Aβ(1-6), Aβ(1-16)PEG and the octarepeat (PHGGGWGQ) of prion protein were studied. ESI-MS results indicate that the formation of 1:1:1 ternary complexes occurred at the physiological pH range. Potentiometric and spectroscopic data demonstrate that in a large pH range, ternary species prevail over binary species with the histidine-driven amide deprotonation.
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Histidine-based high-affinity metal-binding sites in the N-terminus domains, which favor the binding of transition metals such as copper and zinc, feature both Aβ and PrP. Recently, the biological role of copper(II) on the two protein interaction has been revealed. Many studies have been focused on copper(II) binding affinity for both Aβ or prion protein while ternary complexes formed by this metal with both proteins have not been investigated. Here we report a combined ESI MS, potentiometric and spectroscopic (CD, UV-Vis) study on ternary complexes formed by copper(II) ion with Aβ and PrP peptides fragments containing potential metal binding sites. In particular, Aβ(1-4), Aβ(1-6), Ac-Aβ(1-6), Aβ(1-16)PEG and the octarepeat (PHGGGWGQ) of prion protein were studied. ESI-MS results indicate that the formation of 1:1:1 ternary complexes occurred at the physiological pH range. 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Histidine-based high-affinity metal-binding sites in the N-terminus domains, which favor the binding of transition metals such as copper and zinc, feature both Aβ and PrP. Recently, the biological role of copper(II) on the two protein interaction has been revealed. Many studies have been focused on copper(II) binding affinity for both Aβ or prion protein while ternary complexes formed by this metal with both proteins have not been investigated. Here we report a combined ESI MS, potentiometric and spectroscopic (CD, UV-Vis) study on ternary complexes formed by copper(II) ion with Aβ and PrP peptides fragments containing potential metal binding sites. In particular, Aβ(1-4), Aβ(1-6), Ac-Aβ(1-6), Aβ(1-16)PEG and the octarepeat (PHGGGWGQ) of prion protein were studied. ESI-MS results indicate that the formation of 1:1:1 ternary complexes occurred at the physiological pH range. 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Histidine-based high-affinity metal-binding sites in the N-terminus domains, which favor the binding of transition metals such as copper and zinc, feature both Aβ and PrP. Recently, the biological role of copper(II) on the two protein interaction has been revealed. Many studies have been focused on copper(II) binding affinity for both Aβ or prion protein while ternary complexes formed by this metal with both proteins have not been investigated. Here we report a combined ESI MS, potentiometric and spectroscopic (CD, UV-Vis) study on ternary complexes formed by copper(II) ion with Aβ and PrP peptides fragments containing potential metal binding sites. In particular, Aβ(1-4), Aβ(1-6), Ac-Aβ(1-6), Aβ(1-16)PEG and the octarepeat (PHGGGWGQ) of prion protein were studied. ESI-MS results indicate that the formation of 1:1:1 ternary complexes occurred at the physiological pH range. Potentiometric and spectroscopic data demonstrate that in a large pH range, ternary species prevail over binary species with the histidine-driven amide deprotonation.</abstract><cop>Amsterdam</cop><pub>Elsevier Science Ltd</pub></addata></record>
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subjects	Affinity Apoptosis Binding sites Coordination compounds Copper Copper compounds Histidine Peptides Prions Proteins Spectrum analysis Transition metals
title	Copper-assisted interaction between amyloid-ß and prion: Ternary metal complexes with Aß N-terminus and octarepeat
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