Characterising the Protein-Protein Interaction Between MDM2 and 14-3-3σ; Proof of Concept for Small Molecule Stabilisation

Jake A. Ward, Beatriz Romartinez-Alonso, Danielle F. Kay, Jeddidiah Bellamy-Carter, Bethany Thurairajah, Jaswir Basran, Hanna Kwon, Aneika C. Leney, Salvador Macip, Pietro Roversi, Frederick W. Muskett, Richard G. Doveston

Research output: Working paper/PreprintPreprint

Abstract

Mouse Double Minute 2 (MDM2) is a key negative regulator of the tumour suppressor protein p53. MDM2 overexpression occurs in many types of cancer and results in the suppression of wild type p53. The 14-3-3 family of adaptor proteins are known to bind to MDM2 and the 14-3-3σ isoform controls MDM2 cellular localisation and stability to inhibit its activity. Therefore, small molecule stabilisation of the 14-3-3σ/MDM2 protein-protein interaction (PPI) is a potential therapeutic strategy for the treatment of cancer. In this work we provide a detailed biophysical and structural characterisation of the phosphorylation-dependent interaction between 14-3-3σ and peptides that mimic the 14-3-3 binding motifs within MDM2. The data show that di-phosphorylation of MDM2 at S166 and S186 is essential for high affinity 14-3-3 binding and that the binary complex formed involves one MDM2 di-phosphorylated peptide bound to a dimer of 14-3-3σ. Each of the two phosphorylated stretches of MDM2 occupies one of the two binding grooves of a 14-3-3σ dimer, a novel model for binding of di-phosphorylated peptides to 14-3-3 proteins. In addition, we show that the 14-3-3σ/MDM2 interaction is amenable to small molecule stabilisation. The natural product fusicoccin A forms a ternary complex with a 14-3-3σ dimer and an MDM2 di-phosphorylated peptide resulting in stablisation of the 14-3-3σ/MDM2 PPI. This work serves as a proof-of-concept of the drugability of the 14-3-3/MDM2 PPI and paves the way toward the development of more selective and efficacious small molecule stabilisers.
Original languageEnglish
PublisherbioRxiv
DOIs
Publication statusPublished - 26 Sept 2023

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