posted on 2017-10-13, 00:00authored byAdam G. Kreutzer, Ryan K. Spencer, Kate J. McKnelly, Stan Yoo, Imane L. Hamza, Patrick J. Salveson, James S. Nowick
The absence of high-resolution
structures of amyloid oligomers
constitutes a major gap in our understanding of amyloid diseases.
A growing body of evidence indicates that oligomers of the β-amyloid
peptide Aβ are especially important in the progression of Alzheimer’s
disease. In many Aβ oligomers, the Aβ monomer components
are thought to adopt a β-hairpin conformation. This paper describes
the design and study of a macrocyclic β-hairpin peptide derived
from Aβ16–36. Sodium dodecyl sulfate–polyacrylamide
gel electrophoresis and size exclusion chromatography studies show
that the Aβ16–36 β-hairpin peptide assembles
in solution to form hexamers, trimers, and dimers. X-ray crystallography
reveals that the peptide assembles to form a hexamer in the crystal
state and that the hexamer is composed of dimers and trimers. Lactate
dehydrogenase release assays show that the oligomers formed by the
Aβ16–36 β-hairpin peptide are toxic
toward neuronally derived SH-SY5Y cells. Replica-exchange molecular
dynamics demonstrates that the hexamer can accommodate full-length
Aβ. These findings expand our understanding of the structure,
solution-phase behavior, and biological activity of Aβ oligomers
and may offer insights into the molecular basis of Alzheimer’s
disease.