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Threonine Cavities Are Targetable Motifs That Control Alpha-Synuclein Fibril Growth.

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Recent high-resolution structures of alpha-synuclein (aSyn) fibrils offer promise for rational approaches to drug discovery for Parkinson's disease and Lewy body dementia. Harnessing the first such structures, we previously used… Click to show full abstract

Recent high-resolution structures of alpha-synuclein (aSyn) fibrils offer promise for rational approaches to drug discovery for Parkinson's disease and Lewy body dementia. Harnessing the first such structures, we previously used molecular dynamics and free energy calculations to suggest that threonines 72 and 75─which line water-filled cavities within the fibril stacks─may be of central importance in stabilizing fibrils. Here, we used experimental mutagenesis of both wild-type and A53T aSyn to show that both threonine residues play important but surprisingly disparate roles in fibril nucleation and elongation. The T72A mutant, but not T75A, resulted in a large increase in the extent of fibrillization during primary nucleation, leading us to posit that T72 acts as a "brake" on run-away aggregation. An expanded set of simulations of five recent high-resolution fibril structures suggests that confinement of cavity waters around T72 correlates with this finding. In contrast, the T75A mutation led to a modest decrease in the extent of fibrillization. Furthermore, both T72A and T75A completely blocked the initial fibril elongation in seeded fibrillization. To test whether these threonine-lined cavities are druggable targets, we used computational docking to identify potential small-molecule binders. We show that the top-scoring hit, aprepitant, strongly promotes fibril growth while specifically interacting with aSyn fibrils and not monomer, and we offer speculation as to how such compounds could be used therapeutically.

Keywords: fibril growth; alpha synuclein; threonine cavities; threonine; cavities targetable

Journal Title: ACS chemical neuroscience
Year Published: 2022

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