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Age-Specific Differences in Oncogenic Pathway Deregulation Seen in Human Breast Tumors

Author

Listed:
  • Carey K Anders
  • Chaitanya R Acharya
  • David S Hsu
  • Gloria Broadwater
  • Katherine Garman
  • John A Foekens
  • Yi Zhang
  • Yixin Wang
  • Kelly Marcom
  • Jeffrey R Marks
  • Sayan Mukherjee
  • Joseph R Nevins
  • Kimberly L Blackwell
  • Anil Potti

Abstract

Purpose: To define the biology driving the aggressive nature of breast cancer arising in young women. Experimental Design: Among 784 patients with early stage breast cancer, using prospectively-defined, age-specific cohorts (young ≤45 years; older ≥65 years), 411 eligible patients (n = 200≤45 years; n = 211≥65 years) with clinically-annotated Affymetrix microarray data were identified. GSEA, signatures of oncogenic pathway deregulation and predictors of chemotherapy sensitivity were evaluated within the two age-defined cohorts. Results: In comparing deregulation of oncogenic pathways between age groups, a higher probability of PI3K (p = 0.006) and Myc (p = 0.03) pathway deregulation was observed in breast tumors arising in younger women. When evaluating unique patterns of pathway deregulation, a low probability of Src and E2F deregulation in tumors of younger women, concurrent with a higher probability of PI3K, Myc, and β-catenin, conferred a worse prognosis (HR = 4.15). In contrast, a higher probability of Src and E2F pathway activation in tumors of older women, with concurrent low probability of PI3K, Myc and β-catenin deregulation, was associated with poorer outcome (HR = 2.7). In multivariate analyses, genomic clusters of pathway deregulation illustrate prognostic value. Conclusion: Results demonstrate that breast cancer arising in young women represents a distinct biologic entity characterized by unique patterns of deregulated signaling pathways that are prognostic, independent of currently available clinico-pathologic variables. These results should enable refinement of targeted treatment strategies in this clinically challenging situation.

Suggested Citation

  • Carey K Anders & Chaitanya R Acharya & David S Hsu & Gloria Broadwater & Katherine Garman & John A Foekens & Yi Zhang & Yixin Wang & Kelly Marcom & Jeffrey R Marks & Sayan Mukherjee & Joseph R Nevins , 2008. "Age-Specific Differences in Oncogenic Pathway Deregulation Seen in Human Breast Tumors," PLOS ONE, Public Library of Science, vol. 3(1), pages 1-8, January.
    • Handle: RePEc:plo:pone00:0001373
    DOI: 10.1371/journal.pone.0001373
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    1. Andrea H. Bild & Guang Yao & Jeffrey T. Chang & Quanli Wang & Anil Potti & Dawn Chasse & Mary-Beth Joshi & David Harpole & Johnathan M. Lancaster & Andrew Berchuck & John A. Olson & Jeffrey R. Marks &, 2006. "Oncogenic pathway signatures in human cancers as a guide to targeted therapies," Nature, Nature, vol. 439(7074), pages 353-357, January.
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    1. Monica Mannelqvist & Elisabeth Wik & Ingunn M Stefansson & Lars A Akslen, 2014. "An 18-Gene Signature for Vascular Invasion Is Associated with Aggressive Features and Reduced Survival in Breast Cancer," PLOS ONE, Public Library of Science, vol. 9(6), pages 1-10, June.

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