Frontiers in Pharmacology (Jun 2015)

Combined inhibition of MEK and Aurora A kinase in KRAS/PIK3CA double-mutant colorectal cancer models

  • S. Lindsey eDavis,
  • S. Lindsey eDavis,
  • Kelli M. Robertson,
  • Todd M. Pitts,
  • Todd M. Pitts,
  • John J. Tentler,
  • John J. Tentler,
  • Erica L. Bradshaw-Pierce,
  • Erica L. Bradshaw-Pierce,
  • Erica L. Bradshaw-Pierce,
  • Peter J. Klauck,
  • Stacey M. Bagby,
  • Stephanie L. Hyatt,
  • Heather M. Selby,
  • Anna eSpreafico,
  • Jeffrey A Ecsedy,
  • John J. Arcaroli,
  • John J. Arcaroli,
  • Wells A. Messersmith,
  • Wells A. Messersmith,
  • Aik Choon eTan,
  • Aik Choon eTan,
  • S. Gail eEckhardt,
  • S. Gail eEckhardt

DOI
https://doi.org/10.3389/fphar.2015.00120
Journal volume & issue
Vol. 6

Abstract

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Aurora A kinase and MEK inhibitors induce different, and potentially complementary, effects on the cell cycle of malignant cells, suggesting a rational basis for utilizing these agents in combination. In this work, the combination of an Aurora A kinase and MEK inhibitor was evaluated in pre-clinical colorectal cancer models, with a focus on identifying a subpopulation in which it might be most effective. Increased synergistic activity of the drug combination was identified in colorectal cancer cell lines with concomitant KRAS and PIK3CA mutations. Anti-proliferative effects were observed upon treatment of these double-mutant cell lines with the drug combination, and tumor growth inhibition was observed in double-mutant human tumor xenografts, though effects were variable within this subset. Additional evaluation suggests that degree of G2/M delay and p53 mutation status affect apoptotic activity induced by combination therapy with an Aurora A kinase and MEK inhibitor in KRAS and PIK3CA mutant colorectal cancer. Overall, in vitro and in vivo testing was unable to identify a subset of colorectal cancer that was consistently responsive to the combination of a MEK and Aurora A kinase inhibitor.

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