Integrative modeling of tumor genomes and epigenomes for enhanced cancer diagnosis by cell-free DNA

Mingyun Bae, Gyuhee Kim, Tae Rim Lee, Jin Mo Ahn, Hyunwook Park, Sook Ryun Park, Ki Byung Song, Eunsung Jun, Dongryul Oh, Jeong Won Lee, Young Sik Park, Ki Won Song, Jeong Sik Byeon, Bo Hyun Kim, Joo Hyuk Sohn, Min Hwan Kim, Gun Min Kim, Eui Kyu Chie, Hyun Cheol Kang, Sun Young KongSang Myung Woo, Jeong Eon Lee, Jai Min Ryu, Junnam Lee, Dasom Kim, Chang Seok Ki, Eun Hae Cho, Jung Kyoon Choi

Research output: Contribution to journalArticlepeer-review

8 Scopus citations

Abstract

Multi-cancer early detection remains a key challenge in cell-free DNA (cfDNA)-based liquid biopsy. Here, we perform cfDNA whole-genome sequencing to generate two test datasets covering 2125 patient samples of 9 cancer types and 1241 normal control samples, and also a reference dataset for background variant filtering based on 20,529 low-depth healthy samples. An external cfDNA dataset consisting of 208 cancer and 214 normal control samples is used for additional evaluation. Accuracy for cancer detection and tissue-of-origin localization is achieved using our algorithm, which incorporates cancer type-specific profiles of mutation distribution and chromatin organization in tumor tissues as model references. Our integrative model detects early-stage cancers, including those of pancreatic origin, with high sensitivity that is comparable to that of late-stage detection. Model interpretation reveals the contribution of cancer type-specific genomic and epigenomic features. Our methodologies may lay the groundwork for accurate cfDNA-based cancer diagnosis, especially at early stages.

Original languageEnglish
Article number2017
JournalNature Communications
Volume14
Issue number1
DOIs
StatePublished - Dec 2023

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© 2023, The Author(s).

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