Cross‐Talk Between the Octarepeat Domain and the Fifth Binding Site of Prion Protein Driven by the Interaction of Copper(II) with the N‐terminus

Prion diseases are a group of neurodegenerative diseases based on the conformational conversion of the normal form of the prion protein (PrP^C) to the disease‐related scrapie isoform (PrP^Sc). Copper(II) coordination to PrP^C has attracted considerable interest for almost 20 years, mainly due to the possibility that such an interaction would be an important event for the physiological function of PrP^C. In this work, we report the copper(II) coordination features of the peptide fragment Ac(PEG₁₁)₃PrP(60‐114) Ac=acetyl] as a model for the whole N‐terminus of the PrP^C metal‐binding domain. We studied the complexation properties of the peptide by means of potentiometric, UV/Vis, circular dichroism and electrospray ionisation mass spectrometry techniques. The results revealed that the preferred histidyl binding sites largely depend on the pH and copper(II)/peptide ratio. Formation of macrochelate species occurs up to a 2:1 metal/peptide ratio in the physiological pH range and simultaneously involves the histidyl residues present both inside and outside the octarepeat domain. However, at increased copper(II)/peptide ratios amide‐bound species form, especially within the octarepeat domain. On the contrary, at basic pH the amide‐bound species predominate at any copper/peptide ratio and are formed preferably with the binding sites of His96 and His111, which is similar to the metal‐binding‐affinity order observed in our previous studies.