EBioMedicine (May 2018)

Development and Validation of a 28-gene Hypoxia-related Prognostic Signature for Localized Prostate Cancer

  • Lingjian Yang,
  • Darren Roberts,
  • Mandeep Takhar,
  • Nicholas Erho,
  • Becky A.S. Bibby,
  • Niluja Thiruthaneeswaran,
  • Vinayak Bhandari,
  • Wei-Chen Cheng,
  • Syed Haider,
  • Amy M.B. McCorry,
  • Darragh McArt,
  • Suneil Jain,
  • Mohammed Alshalalfa,
  • Ashley Ross,
  • Edward Schaffer,
  • Robert B. Den,
  • R. Jeffrey Karnes,
  • Eric Klein,
  • Peter J. Hoskin,
  • Stephen J. Freedland,
  • Alastair D. Lamb,
  • David E. Neal,
  • Francesca M. Buffa,
  • Robert G. Bristow,
  • Paul C. Boutros,
  • Elai Davicioni,
  • Ananya Choudhury,
  • Catharine M.L. West

Journal volume & issue
Vol. 31
pp. 182 – 189

Abstract

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Background: Hypoxia is associated with a poor prognosis in prostate cancer. This work aimed to derive and validate a hypoxia-related mRNA signature for localized prostate cancer. Method: Hypoxia genes were identified in vitro via RNA-sequencing and combined with in vivo gene co-expression analysis to generate a signature. The signature was independently validated in eleven prostate cancer cohorts and a bladder cancer phase III randomized trial of radiotherapy alone or with carbogen and nicotinamide (CON). Results: A 28-gene signature was derived. Patients with high signature scores had poorer biochemical recurrence free survivals in six of eight independent cohorts of prostatectomy-treated patients (Log rank test P < .05), with borderline significances achieved in the other two (P < .1). The signature also predicted biochemical recurrence in patients receiving post-prostatectomy radiotherapy (n = 130, P = .007) or definitive radiotherapy alone (n = 248, P = .035). Lastly, the signature predicted metastasis events in a pooled cohort (n = 631, P = .002). Prognostic significance remained after adjusting for clinic-pathological factors and commercially available prognostic signatures. The signature predicted benefit from hypoxia-modifying therapy in bladder cancer patients (intervention-by-signature interaction test P = .0026), where carbogen and nicotinamide was associated with improved survival only in hypoxic tumours. Conclusion: A 28-gene hypoxia signature has strong and independent prognostic value for prostate cancer patients. Keywords: Gene expression signature, Hypoxia, Prognostic biomarker, Prostate cancer, Radiotherapy