PLoS ONE (Jan 2014)

Mesenchymal phenotype predisposes lung cancer cells to impaired proliferation and redox stress in response to glutaminase inhibition.

  • Danielle B Ulanet,
  • Kiley Couto,
  • Abhishek Jha,
  • Sung Choe,
  • Amanda Wang,
  • Hin-Koon Woo,
  • Mya Steadman,
  • Byron DeLaBarre,
  • Stefan Gross,
  • Edward Driggers,
  • Marion Dorsch,
  • Jonathan B Hurov

DOI
https://doi.org/10.1371/journal.pone.0115144
Journal volume & issue
Vol. 9, no. 12
p. e115144

Abstract

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Recent work has highlighted glutaminase (GLS) as a key player in cancer cell metabolism, providing glutamine-derived carbon and nitrogen to pathways that support proliferation. There is significant interest in targeting GLS for cancer therapy, although the gene is not known to be mutated or amplified in tumors. As a result, identification of tractable markers that predict GLS dependence is needed for translation of GLS inhibitors to the clinic. Herein we validate a small molecule inhibitor of GLS and show that non-small cell lung cancer cells marked by low E-cadherin and high vimentin expression, hallmarks of a mesenchymal phenotype, are particularly sensitive to inhibition of the enzyme. Furthermore, lung cancer cells induced to undergo epithelial to mesenchymal transition (EMT) acquire sensitivity to the GLS inhibitor. Metabolic studies suggest that the mesenchymal cells have a reduced capacity for oxidative phosphorylation and increased susceptibility to oxidative stress, rendering them unable to cope with the perturbations induced by GLS inhibition. These findings elucidate selective metabolic dependencies of mesenchymal lung cancer cells and suggest novel pathways as potential targets in this aggressive cancer type.