Peptidic Scaffolds To Reduce the Interaction of Cu(II) Ions with ß-Amyloid Protein.

Competitive Cu(II)-binding studies have been carried out between five decapeptides (both acyclic and cyclic), namely C-Asp, C-Asn, O-Asp, ODPro-Asp, and O-Asn, and the Aß(1-16) and Aß(1-40) fragments. Conformational constraints in such peptidic scaffolds affect their copper-binding affinity, which can be tuned. In the present study, the ability of these peptides to compete with Aß has been assessed in vitro, with the objective to examine whether such soft chelating agents may be used to lessen the deleterious interaction of Cu(II) with Aß. Fluorescence spectroscopy, electron paramagnetic resonance, and mass spectrometry data show that the more constrained peptide, i.e., cyclic C-Asp, which displays a Cu(II)-binding affinity comparable to that of Aß, is the only potential metal-protein attenuating compound (MPAC) candidate. In vitro aggregation studies with Aß(1-40) reveal that C-Asp can hamper the formation of copper-stabilized oligomeric Aß species, through capturing the metal ion prior to its interaction with monomeric Aß. The present study shows that (cyclic) peptides, preorganized for Cu(II) binding, may be applied for the development of potential copper-Aß attenuating compounds.

The role of methylation in the copper(ii) coordination properties of a His-containing decapeptide.

N-Methylation of the peptide amide bond has proven to be a powerful strategy to fine-tune the conformation and properties of peptides. In this context and for the first time, we show that N-methylation can also be used to control the copper(ii) coordination properties of peptides and stabilize at high pH values the copper(ii) species lacking amidate coordination. Namely, we have prepared a derivative of the O-Asp peptide where the copper(ii) coordinating amino acids, i.e. Asp and His residues, were N-methylated (ONMe-Asp). A combined study using potentiometric and spectroscopic (UV-Vis, CD, EPR and NMR) techniques indicates the formation of the wanted major species, [CuH(ONMe-Asp)]2+, where copper(ii) is bound to His4(Nε), His7(Nε), His9(Nε) and Asp2(COO-). With respect to the parent non-methylated O-Asp peptide, [CuH(ONMe-Asp)]2+ is stable at higher pH values but has lower affinity for copper(ii). Additionally, electrochemical studies reveal a Cu(ii) ⇌ Cu(i) redox process with a larger cathodic and anodic peak separation. Species containing copper(ii) coordinating amidates were not observed for this ONMe-Asp peptide.