A natural-product switch for a dynamic protein interface
Files
Publication date
2014-06-16
Editors
Advisors
Supervisors
Document Type
Article
Metadata
Show full item recordCollections
License
Abstract
Small ligands are a powerful way to control the function of protein complexes via dynamic binding interfaces. The classic example is found in gene transcription where small ligands regulate nuclear receptor binding to coactivator proteins via the dynamic activation function 2 (AF2) interface. Current ligands target the ligand-binding pocket side of the AF2. Few ligands are known, which selectively target the coactivator side of the AF2, or which can be selectively switched from one side of the interface to the other. We use NMR spectroscopy and modeling to identify a natural product, which targets the retinoid X receptor (RXR) at both sides of the AF2. We then use chemical synthesis, cellular screening and X-ray co-crystallography to split this dual activity, leading to a potent and molecularly efficient RXR agonist, and a first-of-kind inhibitor selective for the RXR/coactivator interaction. Our findings justify future exploration of natural products at dynamic protein interfaces.
Keywords
drug discovery, natural products, nuclear receptors, protein-protein interactions, retinoid X receptor, General Chemistry, Catalysis
Citation
Scheepstra, M, Nieto, L, Hirsch, A K H, Fuchs, S, Leysen, S, Lam, C V, In Het Panhuis, L, Van Boeckel, C A A, Wienk, H, Boelens, R, Ottmann, C, Milroy, L G & Brunsveld, L 2014, 'A natural-product switch for a dynamic protein interface', Angewandte Chemie - International Edition, vol. 53, no. 25, pp. 6443-6448. https://doi.org/10.1002/anie.201403773