β-cleavage of the human prion protein impacts Cu(II) coordination at its non-octarepeat region

The cellular prion protein (PrPC) is a membrane-anchored copper binding protein that undergoes proteolytic processing. beta-cleavage of PrPC is associated with a pathogenic condition and it yields two fragments: N2 with residues 23-89, and C2 including residues 90-231. The membrane-bound C2 fragment retains the Cu binding sites at His96 and His111, but it also has a free N-terminal NH2 group. In this study, the impact of beta-cleavage of PrPC in its Cu(II) binding properties was evaluated, using the peptide of the human prion protein hPrP(90-115) as a model for the C2 fragment. The Cu(II) coordination properties of hPrP(90-115) were studied using circular dichroism (CD) and electron paramagnetic resonance (EPR); while the H96A and H111A substitutions and its acetylated variants were also studied. Cu binding to hPrP(90-115) is dependent on metal ion concentration: At low copper concentrations the participation of His96 and free NH2-terminus is evident, while at high copper concentrations the His111 site is populated without participation of the N-terminal NH2 group. The presence of a free NH2-terminal group in the C2 fragment significantly impacts the Cu(II) coordination properties of the His96 site, where the NH2 group also anchors the metal ion. This study provides further insights into the impact of proteolytic processing of PrPC in the Cu binding properties of this important neuronal protein.