An amphiphilic material arginine-arginine-bile acid promotes alpha-synuclein amyloid formation
- Authors
- Lin, Yuxi; Park, So-Hyeon; Bok, Eugene; Heo, Yunseok; Yang, Seong-Bin; Yi, Yoon-Sun; Lee, Jun-Hyuck; Seo, Donghyun; Jo, Eunae; Lim, Sungsu; Kim, Yun Kyung; Kardos, Jozsef; Ryu, Kyoung-Seok; Kim, Jaekwang; Park, Jooho; Lee, Young-Ho
- Issue Date
- Jun-2023
- Publisher
- Royal Society of Chemistry
- Citation
- Nanoscale, v.15, no.21, pp 9315 - 9328
- Pages
- 14
- Journal Title
- Nanoscale
- Volume
- 15
- Number
- 21
- Start Page
- 9315
- End Page
- 9328
- URI
- http://scholarworks.bwise.kr/kbri/handle/2023.sw.kbri/124
- DOI
- 10.1039/d3nr01468a
- ISSN
- 2040-3364
2040-3372
- Abstract
- Amyloid generation plays essential roles in various human diseases, biological functions, and nanotechnology. However, developing efficient chemical and biological candidates for regulating amyloid fibrillation remains difficult because information on the molecular actions of modulators is insufficient. Thus, studies are needed to understand how the intermolecular physicochemical properties of the synthesised molecules and amyloid precursors influence amyloidogenesis. In this study, we synthesised a novel amphiphilic sub-nanosized material, arginine-arginine (RR)-bile acid (BA), by conjugating positively charged RR to hydrophobic BA. The effects of RR-BA on amyloid formation were investigated on alpha-synuclein (alpha SN) in Parkinson's disease and on K18 and amyloid-beta (1-42) (A beta 42) in Alzheimer's disease. RR-BA showed no appreciable effect on the kinetics of K18 and A beta 42 amyloid fibrillation because of their weak and non-specific interactions. However, RR-BA specifically bound to alpha SN with moderate binding affinity through electrostatic interactions between the positively charged RR and the negatively charged cluster in the C-terminus of alpha SN. In addition, hydrophobic BA in the alpha SN-RR-BA complex transiently condensed alpha SN for primary nucleation, thereby accelerating alpha SN amyloid fibrillation. We propose an electrostatic binding and hydrophobic condensation model of RR-BA-driven amyloid formation of alpha SN, which will contribute to the rational design and development of molecules for controlling amyloid aggregation in diverse fields.
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