Targeting the Tcf4 G13ANDE17 binding site to selectively disrupt β-catenin/T-cell factor protein-protein interactions.

Selective disruption of protein-protein interactions by small molecules is important for probing the structure and dynamic aspects of cellular network. It can also provide new therapeutic targets. β-Catenin of the canonical Wnt signaling pathway uses the same positively charged groove to bind with T-cell factor (Tcf), cadherin, and adenomatous polysis coli (APC). The extravagant formation of β-catenin/Tcf interactions drives the initiation and progression of many cancers and fibroses, while β-catenin/cadherin and β-catenin/APC interactions are essential for cell-cell adhesion and β-catenin degradation. In this study, a selective binding site that can differentiate β-catenin/Tcf, β-catenin/cadherin, and β-catenin/APC interactions was identified by alanine scanning and biochemical assays. A new peptidomimetic strategy that incorporates SiteMap and multiple-copy simultaneous search was used to design selective small-molecule inhibitors for β-catenin/Tcf interactions. A potent inhibitor was discovered to bind with β-catenin and completely disrupt β-catenin/Tcf interactions. It also exhibits dual selectivity for β-catenin/Tcf over β-catenin/cadherin and β-catenin/APC interactions in both biochemical and cell-based assays. This study provides a proof of concept for designing selective inhibitors for β-catenin/Tcf interactions.