The p3 Peptide, a Naturally Occurring Fragment of the Amyloid-β Peptide (Aβ)Found in Alzheimer's Disease, Has a Greater Aggregation Propensity In Vitro Than Full-Length Aβ, But Does Not Bind Cu2+.

Abstract

Cerebellar preamyloid from both Down’s syndrome and Alzheimer’s disease contains the p3 fragment (Aβ 17–40/42) as a major amyloid-β peptide (Aβ) component. The p3 peptide was previously shown to form amyloid in vitro, but less readily than full-length Aβ. Here we show that the p3 peptide has a greater β-sheet-forming propensity than full-length Aβ. Using circular dichroism spectroscopy we determined that in aqueous solutions the p3 peptide forms β-sheet structure more readily than full-length Aβ. The p3 peptide also has a lower α-helical propensity than full-length Aβ in the structure-forming solvent trifluoroethanol. These results indicate that the lower amyloidogenicity of the p3 peptide is not related to an inability to form β-sheet structure. In this study we also show that, unlike full-length Aβ, the p3 peptide does not bind Cu²⁺ ions. This inability to bind copper ions may explain why the p3 peptide appears to play a lesser role in Down’s syndrome and Alzheimer’s disease related neurodegeneration than does full-length Aβ.