Expanding the Chemical Space of Transforming Growth Factor-ß (TGFß) Receptor Type II Degraders with 3,4-Disubstituted Indole Derivatives.

ABSTRACT

The TGFß type II receptor (TßRII) is a central player in all TGFß signaling downstream events, has been linked to cancer progression, and thus, has emerged as an auspicious anti-TGFß strategy. Especially its targeted degradation presents an excellent goal for effective TGFß pathway inhibition. Here, cellular structure-activity relationship (SAR) data from the TßRII degrader chemotype 1 was successfully transformed into predictive ligand-based pharmacophore models that allowed scaffold hopping. Two distinct 3,4-disubstituted indoles were identified from virtual screening tetrahydro-4-oxo-indole 2 and indole-3-acetate 3. Design, synthesis, and screening of focused amide libraries confirmed 2r and 3n as potent TGFß inhibitors. They were validated to fully recapitulate the ability of 1 to selectively degrade TßRII, without affecting TßRI. Consequently, 2r and 3n efficiently blocked endothelial-to-mesenchymal transition and cell migration in different cancer cell lines while not perturbing the microtubule network. Hence, 2 and 3 present novel TßRII degrader chemotypes that will (1) aid target deconvolution efforts and (2) accelerate proof-of-concept studies for small-molecule-driven TßRII degradation in vivo.