PLoS ONE (Jan 2011)

14-3-3 σ expression effects G2/M response to oxygen and correlates with ovarian cancer metastasis.

  • Dashnamoorthy Ravi,
  • Yidong Chen,
  • Bijal Karia,
  • Adam Brown,
  • Ting Ting Gu,
  • Jie Li,
  • Mark S Carey,
  • Bryan T Hennessy,
  • Alexander J R Bishop

DOI
https://doi.org/10.1371/journal.pone.0015864
Journal volume & issue
Vol. 6, no. 1
p. e15864

Abstract

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In vitro cell culture experiments with primary cells have reported that cell proliferation is retarded in the presence of ambient compared to physiological O₂ levels. Cancer is primarily a disease of aberrant cell proliferation, therefore, studying cancer cells grown under ambient O₂ may be undesirable. To understand better the impact of O₂ on the propagation of cancer cells in vitro, we compared the growth potential of a panel of ovarian cancer cell lines under ambient (21%) or physiological (3%) O₂.Our observations demonstrate that similar to primary cells, many cancer cells maintain an inherent sensitivity to O₂, but some display insensitivity to changes in O₂ concentration. Further analysis revealed an association between defective G2/M cell cycle transition regulation and O₂ insensitivity resultant from overexpression of 14-3-3 σ. Targeting 14-3-3 σ overexpression with RNAi restored O₂ sensitivity in these cell lines. Additionally, we found that metastatic ovarian tumors frequently overexpress 14-3-3 σ, which in conjunction with phosphorylated RB, results in poor prognosis.Cancer cells show differential proliferative sensitivity to changes in O₂ concentration. Although a direct link between O₂ insensitivity and metastasis was not determined, this investigation showed that an O₂ insensitive phenotype in cancer cells to correlate with metastatic tumor progression.