Investigating the effects of erythrosine B on amyloid fibril formation derived from lysozyme

[Display omitted] Formation of amyloid fibrils has been associated with at least 30 different protein aggregation diseases. The 129-residue polypeptide hen lysozyme, which is structurally homologous to human lysozyme, has been demonstrated to exhibit amyloid fibril-forming propensity in vitro. This...

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Veröffentlicht in:International journal of biological macromolecules 2017-05, Vol.98, p.159-168
Hauptverfasser: Kuo, Chun-Tien, Chen, Yi-Lin, Hsu, Wei-Tse, How, Su-Chun, Cheng, Yu-Hong, Hsueh, Shu-Shun, Liu, Hwai-Shen, Lin, Ta-Hsien, Wu, Josephine W., Wang, Steven S.-S.
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Sprache:eng
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Zusammenfassung:[Display omitted] Formation of amyloid fibrils has been associated with at least 30 different protein aggregation diseases. The 129-residue polypeptide hen lysozyme, which is structurally homologous to human lysozyme, has been demonstrated to exhibit amyloid fibril-forming propensity in vitro. This study is aimed at exploring the influence of erythrosine B on the in vitro amyloid fibril formation of hen lysozyme at pH 2.0 and 55°C using ThT binding assay, transmission electron microscopy, far-UV circular dichroism absorption spectroscopy, 1-anilinonaphthalene-8-sulfonic acid fluorescence spectroscopy, and synchronous fluorescence study. We found that lysozyme fibrillogenesis was dose-dependently suppressed by erythrosine B. In addition, our far-UV CD and ANS fluorescence data showed that, as compared with the untreated lysozyme control, the α-to-ß transition and exposure of hydrophobic clusters in lysozyme were reduced upon treatment with erythrosine B. Moreover, it could be inferred that the binding of erythrosine B occurred in the vicinity of the tryptophan residues. Finally, molecular docking and molecular dynamics simulations were further employed to gain some insights into the possible binding site(s) and interactions between lysozyme and erythrosine B. We believe the results obtained here may contribute to the development of potential strategies/approaches for the suppression of amyloid fibrillogenesis, which is implicated in amyloid pathology.
ISSN:0141-8130
1879-0003
DOI:10.1016/j.ijbiomac.2017.01.110