A Binary Bivalent Supramolecular Assembly Platform Based on Cucurbit[8]uril and Dimeric Adapter Protein 14‐3‐3

Interactions between proteins frequently involve recognition sequences based on multivalent binding events. Dimeric 14‐3‐3 adapter proteins are a prominent example and typically bind partner proteins in a phosphorylation‐dependent mono‐ or bivalent manner. Herein we describe the development of a cucurbit[8]uril (Q8)‐based supramolecular system, which in conjunction with the 14‐3‐3 protein dimer acts as a binary and bivalent protein assembly platform. We fused the phenylalanine–glycine–glycine (FGG) tripeptide motif to the N‐terminus of the 14‐3‐3‐binding epitope of the estrogen receptor α (ERα) for selective binding to Q8. Q8‐induced dimerization of the ERα epitope augmented its affinity towards 14‐3‐3 through a binary bivalent binding mode. The crystal structure of the Q8‐induced ternary complex revealed molecular insight into the multiple supramolecular interactions between the protein, the peptide, and Q8. Binary bivalent binding: The combination of a bivalent cucurbit[8]uril (Q8) host–guest complex with the bivalent protein 14‐3‐3 generated a binary assembly platform. Supramolecular induced switching between mono‐ and bivalent protein modes was observed and the elucidation of the first Q8‐protein cocrystal structure reported.