Synucleinopathies are neurodegenerative diseases associated with toxicity of the lipid-binding protein α-synuclein (α-syn). When expressed in yeast, α-syn associates with membranes at the endoplasmic reticulum and traffics with vesicles out to the plasma membrane. At higher levels it elicits a number of phenotypes, including blocking vesicle trafficking. The expression of α-syn splice isoforms varies with disease, but how these isoforms affect protein function is unknown. We investigated two of the most abundant isoforms, resulting in deletion of exon four (α-synΔ4) or exon six (α-synΔ6). α-SynΔ4, missing part of the lipid-binding domain, had reduced toxicity and membrane binding. α-SynΔ6, missing part of the protein-protein interaction domain, had reduced toxicity but no reduction in membrane binding. To compare the mechanism by which the splice isoforms exert toxicity, equally toxic strains were probed with genetic modifiers of α-syn-induced toxicity. Most modifiers equally altered the toxicity induced by the splice isoforms and full-length α-syn (α-synFL). However, the splice isoform strains responded differently to a sterol-binding protein, leading us to examine the effect of sterols on α-syn-induced toxicity. Upon inhibition of sterol synthesis, α-synFL and α-synΔ6, but not α-synΔ4, showed decreased plasma membrane association, increased vesicular association, and increased cellular toxicity. Thus, higher membrane sterol concentrations favor plasma membrane binding of α-synFL and α-synΔ6 and may be protective of synucleinopathy progression. Given the common use of cholesterol-reducing statins and these potential effects on membrane binding proteins, further investigation of how sterol concentration and α-syn splice isoforms affect vesicular trafficking in synucleinopathies is warranted.
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