Author:
Namba Norihiro,Ohgita Takashi,Tamagaki-Asahina Hiroko,Nishitsuji Kazuchika,Shimanouchi Toshinori,Sato Takeshi,Saito Hiroyuki
Abstract
AbstractThe N-terminal fragment of apolipoprotein A-I (apoA-I), comprising residues 1–83, contains three segments prone to aggregation: residues 14–22, 53–58, and 67–72. We previously demonstrated that residues 14–22 are critical in apoA-I fibril formation while residues 53–58 entropically drove the nucleation process. Here, we investigated the impact of amyloidogenic mutations (Δ60–71/VT, Δ70–72, and F71Y) located around residues 67–72 on fibril formation by the apoA-I 1–83 fragment. Thioflavin T fluorescence assay demonstrated that the Δ60–71/VT mutation significantly enhances both nucleation and fibril elongation rates, whereas the Δ70–72 and F71Y mutations had minimal effects. Circular dichroism measurements and microscopic observations revealed that all variant fragments formed straight fibrils, transitioning from random coils to β-sheet structures. Kinetic analysis demonstrated that primary nucleation is the dominant step in fibril formation, with fibril elongation reaching saturation at high protein concentrations. Thermodynamically, both nucleation and fibril elongation were enthalpically and entropically unfavorable in all apoA-I 1–83 variants, in which the entropic barrier of nucleation was almost eliminated for the Δ60–71/VT variant. Taken together, our results suggest the presence of new aggregation-prone segment in the Δ60–71/VT variant that promotes nucleation through entropic effects.
Funder
Japan Society for the Promotion of Science
Publisher
Springer Science and Business Media LLC
Cited by
1 articles.
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