Molecular basis of drug resistance in smoothened receptor: an in silico study of protein resistivity and specificity

TitleMolecular basis of drug resistance in smoothened receptor: an in silico study of protein resistivity and specificity
Publication TypeJournal Article
Year of Publication2019
AuthorsSinha, N, Chowdhury, S, Sarkar, RRup
JournalProteins-Structure Function and Bioinformatics
Date PublishedOCT
Type of ArticleArticle; Early Access
ISSN0887-3585
Keywordsallosteric sites, molecular dynamics simulation, Mutation, smoothened receptor, Vismodegib
Abstract

Smoothened (SMO) antagonist Vismodegib effectively inhibits the Hedgehog pathway in proliferating cancer cells. In early stage of treatment, Vismodegib exhibited promising outcomes to regress the tumors cells, but ultimately relapsed due to the drug resistive mutations in SMO mostly occurring before (primary mutations G497W) or after (acquired mutations D473H/Y) anti-SMO therapy. This study investigates the unprecedented insights of structural and functional mechanism hindering the binding of Vismodegib with sensitive and resistant mutant variants of SMO (SMOMut). Along with the basic dynamic understanding of Vismodegib-SMO complexes, network propagation theory based on heat diffusion principles is first time applied here to identify the modules of residues influenced by the individual mutations. The allosteric modulation by GLY497 residue in Vismodegib bound SMO wild-type (SMOWT) conformation depicts the interconnections of intermediate residues of SMO with the atom of Vismodegib and identify two important motifs (E-X-P-L) and (Q-A-N-V-T-I-G) mediating this allosteric regulation. In this study a novel computational framework based on the heat diffusion principle is also developed, which identify significant residues of allosteric site causing drug resistivity in SMOMut. This framework could also be useful for assessing the potential allosteric sites of different other proteins. Moreover, previously reported novel inhibitor ``ZINC12368305,'' which is proven to make an energetically favorable complex with SMOWT is chosen as a control sample to assess the impact of receptor mutation on its binding and subsequently identify the important factors that govern binding disparity between Vismodegib and ZINC12368305 bound SMOWT/Mut conformations.

DOI10.1002/prot.25830
Type of Journal (Indian or Foreign)

Foreign

Impact Factor (IF)

2.501

Divison category: 
Chemical Engineering & Process Development

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