posted on 2024-10-19, 14:11authored byEleni Sflakidou, Bikash Adhikari, Christos Siokatas, Elmar Wolf, Vasiliki Sarli
Monopolar spindle
1 (Mps1, also known as TTK) and Aurora
kinase
(AURK) A and B are critical regulators of mitosis and have been linked
to the progression of various cancers. Here, we report the design,
synthesis, and biological evaluation of a series of PROTACs (proteolysis-targeting
chimeras) targeting TTK and AURKs. We synthesized various degrader
molecules based on four different 2-aminoadenine-based ligands, recruiting
either cereblon or VHL as the E3-ligase. Our research showed that
the nature of the linker and modification of the ligand significantly
influence the target specificity and degradation efficacy. Notably,
compound 19, among the most potent degraders, demonstrated
robust proteasome-mediated degradation of TTK with Dmax of 66.5% and DC50 value (6 h) of 17.7 nM
as compared to its structurally akin inhibitor control, 23. The cytotoxicity of most of the synthesized chimeras against acute
myeloid leukemia cell line MV4-11 was lower than that of the corresponding
parent inhibitors. However, we could also identify degraders such
as 15 and 26 that induce potent AURKA degradation
and display comparable antiproliferative activities to their parent
compound SF1. Compound 15 degrades AURKA
with low DC50 value of 2.05 nM, which is 77-fold and 21-fold
more selective toward AURKB and TTK and has an EC50 value
of 39 nM against cancer MV4-11 cells. Overall, the observations we
made with the degrader molecules we developed can further aid in the
design and development of optimized TTK or AURK degraders for cancer
therapy.