32 research outputs found
Elevated collagen-I augments tumor progressive signals, intravasation and metastasis of prolactin-induced estrogen receptor alpha positive mammary tumor cells
Quantitative in vivo whole genome motility screen reveals novel therapeutic targets to block cancer metastasis
Trivalent PROTACs enhance protein degradation via combined avidity and cooperativity
Bivalent PROTACs work drive protein degradation by simultaneously binding a target protein and an E3 ligase and forming a productive ternary complex. We hypothesized that increasing binding valency within a PROTAC could enhanced degradation. Here, we designed trivalent PROTACs consisting of a bivalent BET inhibitor and an E3 ligand, tethered via a branched linker. We identified VHL-based SIM1 as a low picomolar BET degrader, with preference for BRD2. Compared to bivalent PROTACs, SIM1 showed more sustained and higher degradation efficacy, which led to more potent anti-cancer activity. Mechanistically, SIM1 simultaneously engages with high avidity both BET bromodomains in a cis intramolecular fashion and forms a 1:1:1 ternary complex with VHL exhibiting positive cooperativity and high cellular stability with prolonged residence time. Collectively, our data along with favorable in vivo pharmacokinetics demonstrate that augmenting the binding valency of proximity-induced modalities can be an enabling strategy for advancing functional outcomes