Design, synthesis and bioactivity evaluation of self-assembled PROTACs based on multi-target kinase inhibitors

Proteolysis targeting chimera (PROTAC) is a heterobifunctional molecule with enormous potential for its ability to overcome the limitations of traditional inhibitors. However, its inherent disadvantages have been increasingly revealed, such as poor cell permeability caused by large molecule weight. Herein, to overcome the inherent shortcomings, intracellular self-assembly was proposed based on bioorthogonal reaction and molecular fragments, affording a novel type of self-assembled PROTACs. Two types of precursors incorporated with tetrazine and norbornene as bioorthogonal groups were designed and synthesized, and they could subsequently be conjugated in cells to generate novel PROTACs. Fortunately, ultrafast HRMS and HPLC assays indicated that self-assembled PROTACs driven by the bio-orthogonal reaction were detected in living U87 cells. Biological evaluation suggested that the precursor molecule LN-1 could degrade PDGFR-β protein in a concentration-dependent manner, while cancer cells were co-treated with another precursor molecule, TzB. Our findings verified the feasibility of a self-assembly strategy in future development of novel PROTACs.