Nature Communications (Apr 2024)

A cfDNA methylation-based tissue-of-origin classifier for cancers of unknown primary

  • Alicia-Marie Conway,
  • Simon P. Pearce,
  • Alexandra Clipson,
  • Steven M. Hill,
  • Francesca Chemi,
  • Dan Slane-Tan,
  • Saba Ferdous,
  • A. S. Md Mukarram Hossain,
  • Katarzyna Kamieniecka,
  • Daniel J. White,
  • Claire Mitchell,
  • Alastair Kerr,
  • Matthew G. Krebs,
  • Gerard Brady,
  • Caroline Dive,
  • Natalie Cook,
  • Dominic G. Rothwell

DOI
https://doi.org/10.1038/s41467-024-47195-7
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 12

Abstract

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Abstract Cancers of Unknown Primary (CUP) remains a diagnostic and therapeutic challenge due to biological heterogeneity and poor responses to standard chemotherapy. Predicting tissue-of-origin (TOO) molecularly could help refine this diagnosis, with tissue acquisition barriers mitigated via liquid biopsies. However, TOO liquid biopsies are unexplored in CUP cohorts. Here we describe CUPiD, a machine learning classifier for accurate TOO predictions across 29 tumour classes using circulating cell-free DNA (cfDNA) methylation patterns. We tested CUPiD on 143 cfDNA samples from patients with 13 cancer types alongside 27 non-cancer controls, with overall sensitivity of 84.6% and TOO accuracy of 96.8%. In an additional cohort of 41 patients with CUP CUPiD predictions were made in 32/41 (78.0%) cases, with 88.5% of the predictions clinically consistent with a subsequent or suspected primary tumour diagnosis, when available (23/26 patients). Combining CUPiD with cfDNA mutation data demonstrated potential diagnosis re-classification and/or treatment change in this hard-to-treat cancer group.