Abstract
Huntington's disease (HD) is a neurodegenerative disease resulting from an expansion of the polyglutamine (polyQ) domain within the huntingtin protein (htt). PolyQ expansion triggers toxic aggregation and alters htt/lipid interactions. The first 17 amino acids at the N-terminus of htt (Nt17) have a propensity to form an amphipathic α-helix crucial to aggregation and membrane binding. Htt interacts closely with a variety of membrane systems including those of the endoplasmic reticulum, mitochondria, nuclear envelope, and plasma membrane. Membrane composition heavily influences both htt aggregation and lipid interactions, and cholesterol is a crucial membrane component that modulates properties such as fluidity, permeability, and organization. In HD, cholesterol homeostasis is disrupted, and likely plays a role in toxicity. The objective of these studies was to identify the impact of cholesterol on htt aggregation and lipid interactions in various lipid systems. Lipid systems of POPC, DOPC, and POPG with varied levels of exogenously added cholesterol were exposed to htt, and the influences on aggregation, lipid binding, and htt/lipid complexation were evaluated using thioflavin-T aggregation assays, atomic force microscopy, colorimetric lipid binding assays, and mass spectrometry. The addition of cholesterol to DOPC vesicles enhanced htt aggregation. In the presence of vesicles of either POPC or POPG, the addition of cholesterol reduced htt aggregation. Htt/lipid binding decreased for POPC and increased for both DOPC and POPG with increasing cholesterol content, with observed differences in htt/lipid complexation. Altered cholesterol content influences htt aggregation, lipid binding, and complexation differently depending on overall lipid composition.
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