The Crowded Environment
of a Reverse Micelle Induces
the Formation of β-Strand Seed Structures for Nucleating Amyloid
Fibril Formation
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Abstract
A hallmark of Alzheimer’s disease is the accumulation
of
insoluble fibrils in the brain composed of amyloid beta (Aβ)
proteins with parallel in-register cross-β-sheet structure.
It has been suggested that the aggregation of monomeric Aβ proteins
into fibrils is promoted by “seeds” that form within
compartments of the brain that have limited solvent due to macromolecular
crowding. To characterize these seeds, a crowded macromolecular environment
was mimicked by encapsulating Aβ40 monomers into reverse micelles.
Fourier-transform infrared spectroscopy revealed that monomeric Aβ
proteins form extended β-strands in reverse micelles, while
an analogue with a scrambled sequence does not. This is a remarkable
finding, because the formation of extended β-strands by monomeric
Aβ proteins suggests a plausible mechanism whereby the formation
of amyloid fibrils may be nucleated in the human brain