Amyloid Aggregation Inhibitory Mechanism of Arginine-rich D-peptides

Olubiyi, Olujide; Willbold, Dieter; Strodel, Birgit; Bartnik, Dirk; Brener, O.; Funke, S. A.; Nagel-Steger, Luitgard; Frenzel, Daniel; Glück, Julian

Journal Article

FZJ-2014-02980

Amyloid Aggregation Inhibitory Mechanism of Arginine-rich D-peptides

Olubiyi, O. ; Frenzel, D.FZJ* ; Bartnik, D. ; Glück, J. ; Brener, O. ; Nagel-Steger, L.FZJ* ; Funke, S. A. ; Willbold, D. (Corresponding Author)FZJ* ; Strodel, B.FZJ*

2014
Bentham Science Publ. Hilversum [u.a.]

Current medicinal chemistry 21, 1448-1457 (2014)

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Abstract: It is widely believed that Alzheimer's disease pathogenesis is driven by the production and deposition of the amyloid-β peptide (Aβ) in the brain. In this study, we employ a combination of in silico and in vitro approaches to investigate the inhibitory properties of selected arginine-rich D-enantiomeric peptides (D-peptides) against amyloid aggregation. The D-peptides include D3, a 12-residue peptide with anti-amyloid potencies demonstrated in vitro and in vivo, RD2, a scrambled sequence of D3, as well as truncated RD2 variants. Using a global optimization method together with binding free energy calculations followed by molecular dynamics simulations, we perform a detailed analysis of D-peptide binding to Aβ monomer and a fibrillar Aβ structure. Results obtained from both molecular simulations and surface plasmon resonance experiments reveal a strong binding of D3 and RD2 to Aβ, leading to a significant reduction in the amount of β structures in both monomer and fibril, which was also demonstrated in Thioflavin T assays. The binding of the D-peptides to Aβ is driven by electrostatic interactions, mostly involving the D-arginine residues and Glu11, Glu22 and Asp23 of Aβ. Furthermore, we show that the anti-amyloid activities of the D-peptides depend on the length and sequence of the Dpeptide, its ability to form multiple weak hydrophobic interactions with Aβ, as well as the Aβ oligomer size.

Classification:

ddc:540

Note: Campus-weite Veröffentlichung erwünschtD. Willbold und B. Strodel sind beide "Corresponding Authors".

Contributing Institute(s):

Strukturbiochemie (ICS-6)

Research Program(s):

452 - Structural Biology (POF2-452) (POF2-452)

Appears in the scientific report 2014

Database coverage:
Medline

; BIOSIS Previews ; BIOSIS Reviews Reports And Meetings ; Current Contents - Life Sciences ; JCR ; NCBI Molecular Biology Database ; SCOPUS ; Science Citation Index ; Science Citation Index Expanded ; Thomson Reuters Master Journal List ; Web of Science Core Collection

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Document types > Articles > Journal Article
Institute Collections > IBI > IBI-7
Workflow collections > Public records
ICS > ICS-6
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Record created 2014-04-30, last modified 2021-01-29

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