Experimental and Molecular Medicine (Nov 2023)

Cancer signature ensemble integrating cfDNA methylation, copy number, and fragmentation facilitates multi-cancer early detection

  • Su Yeon Kim,
  • Seongmun Jeong,
  • Wookjae Lee,
  • Yujin Jeon,
  • Yong-Jin Kim,
  • Seowoo Park,
  • Dongin Lee,
  • Dayoung Go,
  • Sang-Hyun Song,
  • Sanghoo Lee,
  • Hyun Goo Woo,
  • Jung-Ki Yoon,
  • Young Sik Park,
  • Young Tae Kim,
  • Se-Hoon Lee,
  • Kwang Hyun Kim,
  • Yoojoo Lim,
  • Jin-Soo Kim,
  • Hwang-Phill Kim,
  • Duhee Bang,
  • Tae-You Kim

DOI
https://doi.org/10.1038/s12276-023-01119-5
Journal volume & issue
Vol. 55, no. 11
pp. 2445 – 2460

Abstract

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Abstract Cell-free DNA (cfDNA) sequencing has demonstrated great potential for early cancer detection. However, most large-scale studies have focused only on either targeted methylation sites or whole-genome sequencing, limiting comprehensive analysis that integrates both epigenetic and genetic signatures. In this study, we present a platform that enables simultaneous analysis of whole-genome methylation, copy number, and fragmentomic patterns of cfDNA in a single assay. Using a total of 950 plasma (361 healthy and 589 cancer) and 240 tissue samples, we demonstrate that a multifeature cancer signature ensemble (CSE) classifier integrating all features outperforms single-feature classifiers. At 95.2% specificity, the cancer detection sensitivity with methylation, copy number, and fragmentomic models was 77.2%, 61.4%, and 60.5%, respectively, but sensitivity was significantly increased to 88.9% with the CSE classifier (p value < 0.0001). For tissue of origin, the CSE classifier enhanced the accuracy beyond the methylation classifier, from 74.3% to 76.4%. Overall, this work proves the utility of a signature ensemble integrating epigenetic and genetic information for accurate cancer detection.