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• W2008051470 endingPage "2187" @default.
• W2008051470 startingPage "2175" @default.
• W2008051470 abstract "Abstract Copper ions have been proposed to play a central role in the amyloid cascade process linked to the development of Alzheimer disease (AD). Involvement in both the amyloid-β (Aβ) aggregation process and reactive oxygen species (ROS) production has been considered. In the last 15 years, many studies regarding copper(II) coordination to Aβ have been reported with divergent conclusions and a consensual binding scheme is not reached yet. They include (i) spectroscopic and thermodynamic investigations of copper(II) coordination to chemically modified peptides (mutants, truncated peptides, etc.) and subsequent analysis of the differences obtained with the native Aβ peptide; (ii) spectroscopic characterization of copper(II) coordination to Aβ via direct methods, such as advanced EPR techniques and FTIR spectroscopy combined with the use of 13C, 15N specifically labeled peptides and NMR. More recently, copper(II) coordination to naturally occurring modified peptides of biological relevance such as murine Aβ, H6R and A2V mutants, and truncated forms at position 3, have also been studied. In the present review, the objective is to give a report as exhaustive as possible of the literature structural data on copper(II) binding to the Aβ peptides and to its modified forms and to sort out contradicting results. Such discrepancies are mainly due to the unstructured nature of the copper binding site in Aβ. Concomitantly, copper(II) coordination has been revealed to be highly dynamic with equilibrium between amino-acid residues of identical nature for one binding position. As a direct consequence, the copper(II) coordination spheres proposed represent the most reasonable models obtained with data available at present. At physiological pH, two copper(II) binding sites, noted components I and II, coexist. The transition between I and II is pH-driven and the pH where the two components are found in a 1:1 ratio (pKa(I/II)) is approx. 7.8, with I (resp. II) predominant at lower (resp. higher) pH. In I and II, the equatorial binding sites of copper(II) are { NH2 (Asp1), CO (Asp1–Ala2), Nτim (His6), Nπim (His13 or His14)} and { NH2 (Asp1), N− (Asp1–Ala2), CO (Ala2–Glu3), Nτim (His6) or Nim (His13 or His14)}, respectively. I and II were clearly (and by consensus) identified by their EPR parameters, g// = 2.27 ± 0.01, A// = 183 ± 5 × 10−4 cm−1 and g// = 2.23 ± 0.01, A// = 160 ± 5 × 10−4 cm−1, respectively. Given examples of copper(II) binding to other naturally occurring Aβ peptides include binding to the murine Aβ peptide, differing from the human Aβ by three point mutations, and to the H6R mutant. Copper(II) binding to murine and human Aβ peptides diverges by the pKa(I/II) value (approx. 6.2 for the former instead of 7.8) and by the nature of the peptide functional group which undergoes deprotonation between I and II, i.e. the Gly5–His6 bond compared with the Asp1–Ala2 bond in the human case. Copper(II) binding to the H6R mutant is characterized by a pKa(I/II) value of approx. 7.3, a decrease induced by the unfavorable coordination of both His13 and His14 in component I." @default.
• W2008051470 created "2016-06-24" @default.
• W2008051470 creator A5045264710 @default.
• W2008051470 creator A5080013997 @default.
• W2008051470 date "2012-10-01" @default.
• W2008051470 modified "2023-09-30" @default.
• W2008051470 title "Coordination of redox active metal ions to the amyloid precursor protein and to amyloid-β peptides involved in Alzheimer disease. Part 2: Dependence of Cu(II) binding sites with Aβ sequences" @default.
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• W2008051470 doi "https://doi.org/10.1016/j.ccr.2012.03.034" @default.
• W2008051470 hasPublicationYear "2012" @default.
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