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Peptidomimetic Polo-Box-Targeted Inhibitors that Engage PLK1 in Tumor Cells and Are Selective against the PLK3 Tumor Suppressor.

Merissa BaxterDanda ChapagaiSandra CraigCecilia HurtadoJessy VargheseElmar NurmemmedovMichael D WyattCampbell McInnes
Published in: ChemMedChem (2020)
The polo-box domain (PBD) of PLK1 determines mitotic substrate recognition and subcellular localization. Compounds that target PLK1 selectively are required due to the tumor-suppressor roles of PLK3. A structure-activity analysis of the PBD phosphopeptide binding motif has identified potent peptides that delineate the determinants required for mimicry by nonpeptidic inhibitors and provide insights into the structural basis for the selectivity of inhibitors for the PLK1 PBD. Fragment-ligated inhibitory peptides (FLIPs) obtained through REPLACE have been optimized to enhance in vitro binding and a systematic analysis of selectivity for PLK1 vs PLK3 has been carried out for peptides and peptidomimetics. Furthermore, these more drug-like non-ATP-competitive inhibitors had on-target engagement in a cellular context, as evidenced by stabilization of PLK1 in a thermal-shift assay and by inhibition of the phosphorylation of TCTP, a target of PLK1. Investigation in cells expressing a mutant PLK1 showed that these cells are sensitive to PBD inhibitors but dramatically resistant to clinically investigated ATP-competitive compounds. These results further validate targeting the PBD binding site in the move towards PLK1 inhibitors that are active against tumors resistant to ATP inhibitors.
Keyphrases
  • structural basis
  • induced apoptosis
  • binding protein
  • cell cycle arrest
  • high resolution
  • high throughput
  • cell death
  • protein kinase
  • dna binding