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- Title
Computationally Design of Inhibitory Peptides Against Wnt Signaling Pathway: In Silico Insight on Complex of DKK1 and LRP6.
- Authors
Rismani, Elham; Rahimi, Hamzeh; Arab, Seyed Shahriar; Azadmanesh, Kayhan; Karimipoor, Morteza; Teimoori-Toolabi, Ladan
- Abstract
Wnt signaling pathway plays a major role in the regulation of cell proliferation, migration, tissue homeostasis, tumor progression and cancer. This pathway can be antagonized by different proteins such as DKK proteins, which disrupt the initiatory complex (Frizzled-LRP6 complex). Therefore, interruption of its formation could be a promising strategy for the design of Low-density lipoprotein receptor-Related Protein 6 (LRP6) inhibitors. A computational study was conducted in order to assist in the design of inhibitory peptides against LRP6 as co-receptor of frizzled. Twelve fragments as peptide derivatives of natural ligand of LRP6 receptor (DKK1) were designed using the information from the analysis of the DKK1_C/LRP6 complex, hot spot residues and the secondary structure. These fragments were based on cys2 domain of DKK1. The designed peptides were energy minimized by molecular dynamics simulations in the presence and absence of LRP6 receptor and their binding affinities were investigated via molecular docking using ClusPro, HADDOCK and PRODIGY webservers. Finally, the stability and free energy of binding in peptides were calculated by FoldX software. The results showed that four designed peptides had the highest affinity (the interaction energy: −10.2867, −10.1388, −7.94339 and −7.57536 kcal/mol) to interact with the receptor which showed the most interacting residues and the lowest free energy of binding. Also, the RMSD, RMSF and RoG of the protein-peptide complex exhibited less structural fluctuations which can be linked to the stability of peptides associated to the receptor. These peptides may be considered as candidates for inhibiting Wnt signaling pathway through LRP6 receptor.
- Subjects
WNT signal transduction; CANCER cell proliferation; LOW density lipoprotein receptors; CANCER cell migration; HOMEOSTASIS; CANCER invasiveness
- Publication
International Journal of Peptide Research & Therapeutics, 2018, Vol 24, Issue 1, p49
- ISSN
1573-3149
- Publication type
Article
- DOI
10.1007/s10989-017-9589-1