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Subcellular drug targeting illuminates local kinase action.

Paula J BuckoChloe K LombardLindsay RathbunIrvin GarciaAkansha BhatLinda WordemanF Donelson SmithDustin J MalyHeidi HehnlyJohn D Scott
Published in: eLife (2019)
Deciphering how signaling enzymes operate within discrete microenvironments is fundamental to understanding biological processes. A-kinase anchoring proteins (AKAPs) restrict the range of action of protein kinases within intracellular compartments. We exploited the AKAP targeting concept to create genetically encoded platforms that restrain kinase inhibitor drugs at distinct subcellular locations. Local Kinase Inhibition (LoKI) allows us to ascribe organelle-specific functions to broad specificity kinases. Using chemical genetics, super resolution microscopy, and live-cell imaging we discover that centrosomal delivery of Polo-like kinase 1 (Plk1) and Aurora A (AurA) inhibitors attenuates kinase activity, produces spindle defects, and prolongs mitosis. Targeted inhibition of Plk1 in zebrafish embryos illustrates how centrosomal Plk1 underlies mitotic spindle assembly. Inhibition of kinetochore-associated pools of AurA blocks phosphorylation of microtubule-kinetochore components. This versatile precision pharmacology tool enhances investigation of local kinase biology.
Keyphrases
  • protein kinase
  • tyrosine kinase
  • high resolution
  • cancer therapy
  • emergency department
  • cell cycle
  • drug delivery
  • small molecule
  • cell proliferation
  • drug induced
  • adverse drug
  • single cell
  • protein protein