Development of Mid-size Bivalent Inhibitors Targeting a Cancer-related Kinase

Abstract

The Ser/Thr-specific kinase, polo-like kinase 1 (Plk1), is a crucial eukaryotic cell cycle regulatory protein. Overexpression of this kinase is observed in many cancer cells and where it can be related to their aggressiveness. Dysfunction of Plk1 in cancer cells causes mitotic arrest and subsequent apoptosis. Accordingly, Plk1 is considered as a target for the development of anti-cancer agents. Plk1 has two domains, a catalytic kinase domain (KD) and a polo-box domain (PBD). PBD intramolecularly interacts with its KD and regulates Plk1 activity and localization. Therefore, in addition to the KD, the PBD is considered to be a potential drug target. We have been developing peptidic low-nanomolar-affinity PBD-binding inhibitors. However, these peptides do not show significant cytotoxicity, due to their low cell membrane permeability. To obtain cell-active Plk1 inhibitors, I applied a bivalent approach designed to simultaneously engage both KD and PBD regions of Plk1 for enhancing the potency, selectivity and lipophilicity. Here, I developed bivalent Plk1 inhibitors, in which the PBD-binding peptides are conjugated with the known KD-binding inhibitors BI2536 or wortmannin using PEG linkers. These bivalent inhibitors exhibit up to 100-fold enhanced Plk1 affinity relative to the best monovalent PBD-binding ligands, higher selectivity for tested kinases compared to BI2536, and significant cytotoxicity against HeLa cells.