Biomolecules (Mar 2022)

A Novel Allosteric Inhibitor Targets PLK1 in Triple Negative Breast Cancer Cells

  • Jankiben R. Patel,
  • Prasad Thangavelu,
  • Renee M. Terrell,
  • Bridg’ette Israel,
  • Arindam Basu Sarkar,
  • A. Michael Davidson,
  • Kun Zhang,
  • Rahul Khupse,
  • Syreeta L. Tilghman

DOI
https://doi.org/10.3390/biom12040531
Journal volume & issue
Vol. 12, no. 4
p. 531

Abstract

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While Polo-like kinase 1 (PLK1) inhibitors have shown promise in clinical settings for treating triple-negative breast cancer tumors and other solid tumors, they are limited by their ability to bind non-selectively to the ATP kinase domain. Therefore, we sought to develop a PLK1 allosteric inhibitor targeting the PLK1 T-loop (a switch responsible for activation) and evaluate its effects in triple-negative breast cancer cells. A novel compound, RK-10, was developed based on an in silico model, and its effects on specificity, viability, migration, and cell cycle regulation in MCF-10A and MDA-MB 231 cells were evaluated. When MDA-MB 231 cells were treated with 0–50 µg/mL RK-10, phospho-PLK1 (Thr-210) was decreased in cells cultured adherently and cells cultured as mammospheres. RK-10 significantly inhibited viability after 24 h; however, by 48 h, 25–50 µM RK-10 caused >50% reduction. RK-10 attenuated wound healing by up to 99.7% and caused S and G2/M cell cycle arrest, which was associated with increased p21 expression. We developed a novel allosteric inhibitor which mediates anti-proliferative and anti-migratory properties through targeting phospho-PLK1 (Thr-210) in mammospheres and causing S phase and G2/M cell cycle arrest. Further development of PLK1 allosteric inhibitors may be a promising approach for TNBC treatment.

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