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Integrated Classification of Prostate Cancer Reveals a Novel Luminal Subtype with Poor Outcome.

  • Author(s): You, Sungyong
  • Knudsen, Beatrice S
  • Erho, Nicholas
  • Alshalalfa, Mohammed
  • Takhar, Mandeep
  • Al-Deen Ashab, Hussam
  • Davicioni, Elai
  • Karnes, R Jeffrey
  • Klein, Eric A
  • Den, Robert B
  • Ross, Ashley E
  • Schaeffer, Edward M
  • Garraway, Isla P
  • Kim, Jayoung
  • Freeman, Michael R
  • et al.

Published Web Location

http://cancerres.aacrjournals.org/content/76/17/4948.long
No data is associated with this publication.
Abstract

Prostate cancer is a biologically heterogeneous disease with variable molecular alterations underlying cancer initiation and progression. Despite recent advances in understanding prostate cancer heterogeneity, better methods for classification of prostate cancer are still needed to improve prognostic accuracy and therapeutic outcomes. In this study, we computationally assembled a large virtual cohort (n = 1,321) of human prostate cancer transcriptome profiles from 38 distinct cohorts and, using pathway activation signatures of known relevance to prostate cancer, developed a novel classification system consisting of three distinct subtypes (named PCS1-3). We validated this subtyping scheme in 10 independent patient cohorts and 19 laboratory models of prostate cancer, including cell lines and genetically engineered mouse models. Analysis of subtype-specific gene expression patterns in independent datasets derived from luminal and basal cell models provides evidence that PCS1 and PCS2 tumors reflect luminal subtypes, while PCS3 represents a basal subtype. We show that PCS1 tumors progress more rapidly to metastatic disease in comparison with PCS2 or PCS3, including PSC1 tumors of low Gleason grade. To apply this finding clinically, we developed a 37-gene panel that accurately assigns individual tumors to one of the three PCS subtypes. This panel was also applied to circulating tumor cells (CTC) and provided evidence that PCS1 CTCs may reflect enzalutamide resistance. In summary, PCS subtyping may improve accuracy in predicting the likelihood of clinical progression and permit treatment stratification at early and late disease stages. Cancer Res; 76(17); 4948-58. ©2016 AACR.

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