In silico discovery of quinoxaline derivatives as novel LRP5/6-sclerostin interaction inhibitors

Bioorganic & Medicinal Chemistry Letters
Jiwon ChoiKyoung Tai No

Abstract

The Wnt/β-catenin signaling pathway is a key regulator of bone homeostasis. Sclerostin act as an extracellular inhibitor of canonical Wnt signaling through high-affinity binding to the Wnt co-receptor LRP5/6. Disruption of the interaction between LRP5/6 and sclerostin has been recognized as a therapeutic target for osteoporosis. We identified a quinoxaline moiety as a new small-molecule inhibitor of the LRP5/6-sclerostin interaction through pharmacophore-based virtual screening, docking simulations, and in vitro assays. Structure-activity relationship studies and binding mode hypotheses were used to optimize the scaffold and yield the compound BMD4503-2, which recovered the downregulated activity of the Wnt/β-catenin signaling pathway by competitive binding to the LRP5/6-sclerostin complex. Overall, this study showed that the optimized structure-based drug design was a promising approach for the development of small-molecule inhibitors of the LRP5/6-sclerostin interaction. A novel scaffold offered considerable insights into the structural basis for binding to LRP5/6 and disruption of the sclerostin-mediated inhibition of Wnt signaling.

Citations

Dec 23, 2020·Journal of Biomolecular Structure & Dynamics·Maryam EnayatkhaniLadan Teimoori-Toolabi
Dec 6, 2020·Journal of Hematology & Oncology·Ya Zhang, Xin Wang

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