Quantitative Proteomics Identifies Conserved Proteins and Altered Regulation of Mucin-16 in Low Grade Serous Ovarian Cancers

  1. Christopher M. Tarney
  2. Paulette Mhawech-Fauceglia
  3. Jonathan D. Ogata
  4. Julie Oliver
  5. Tamara Abulez
  6. Philip A. Branton
  7. Saeid Movahedi-Lankarani
  8. Brian L. Hood
  9. Kelly A. Conrads
  10. Kendal Rosalik
  11. Kwong-Kwok Wong
  12. David M. Gershenson
  13. Sanghoon Lee
  14. Anil K. Sood
  15. Robert C. Bast
  16. Kathleen M. Darcy
  17. Neil T. Phippen
  18. G. Larry Maxwell
  19. Thomas P. Conrads
  20. Nicholas W. Bateman
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Abstract

Background

Low-grade serous ovarian carcinoma (LGSOC) is a rare and largely chemoresistant subtype of epithelial ovarian cancer. Unlike treatment for high-grade serous ovarian cancer (HGSOC), management options for LGSOC patients are limited, in part, due to a lack of deep molecular characterization of this disease. To address this limitation, we aimed to define highly conserved proteome alterations in LGSOC by performing deep quantitative proteomic analysis of tumors collected from LGSOC (n=12) and HGSOC (n=24) patients or normal fallopian tube tissues (n=12) and validating proteins within two independent proteomic datasets of LGSOC (n=25) and HGSOC (n=49) tumors.

Results

Our efforts identified 275 protein alterations conserved between LGSOC and HGSOC tumors that exhibit high quantitative correlation between discovery and validation cohorts (Spearman Rho ≥ 0.82, P < 1E-4). Conserved proteins elevated in LGSOC tumors were enriched for pathways regulating cell adhesion and defective cellular apoptosis signaling and candidates mapping as putative drug targets included 5’-nucleotidase/ cluster of differentiation 73 (NT5E/CD73). We also identified MUC16 (CA125) as significantly elevated in LGSOC versus HGSOC tumors and confirmed this by immunohistochemistry analysis between three independent reviewers. We also find that MUC16 exhibits a more apical versus membrane-staining pattern in LGSOC tumors, suggesting unique regulation of MUC16 in this disease subtype.

Conclusion

Our efforts define highly conserved protein alterations distinguishing LGSOC from HGSOC tumors, including CD73, as well as the novel identification that MUC16 is elevated and exhibits more apical staining pattern in LGSOC tumor tissues. These findings deepen our molecular understanding of LGSOC and provide unique insights into highly conserved proteome alterations in LGSOC tumors.

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  1. Version published to 10.1101/2024.04.29.591278 on bioRxiv