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:10.1038/s12276-023-01119-5

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 BangTae You Kim

Department of Chemistry

Research output: Contribution to journal › Article › peer-review

8 Citations (Scopus)

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.

Original language	English
Pages (from-to)	2445-2460
Number of pages	16
Journal	Experimental and Molecular Medicine
Volume	55
Issue number	11
DOIs	https://doi.org/10.1038/s12276-023-01119-5
Publication status	Published - 2023 Nov

Bibliographical note

Publisher Copyright:
© 2023, The Author(s).

All Science Journal Classification (ASJC) codes

Biochemistry
Molecular Medicine
Molecular Biology
Clinical Biochemistry

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1038/s12276-023-01119-5

Cite this

Kim, S. Y., Jeong, S., Lee, W., Jeon, Y., Kim, Y. J., Park, S., Lee, D., Go, D., Song, S. H., Lee, S., Woo, H. G., Yoon, J. K., Park, Y. S., Kim, Y. T., Lee, S. H., Kim, K. H., Lim, Y., Kim, J. S., Kim, H. P., ... Kim, T. Y. (2023). Cancer signature ensemble integrating cfDNA methylation, copy number, and fragmentation facilitates multi-cancer early detection. Experimental and Molecular Medicine, 55(11), 2445-2460. https://doi.org/10.1038/s12276-023-01119-5

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

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.",

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

note = "Publisher Copyright: {\textcopyright} 2023, The Author(s).",

year = "2023",

month = nov,

doi = "10.1038/s12276-023-01119-5",

language = "English",

volume = "55",

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Kim, SY, Jeong, S, Lee, W, Jeon, Y, Kim, YJ, Park, S, Lee, D, Go, D, Song, SH, Lee, S, Woo, HG, Yoon, JK, Park, YS, Kim, YT, Lee, SH, Kim, KH, Lim, Y, Kim, JS, Kim, HP, Bang, D & Kim, TY 2023, 'Cancer signature ensemble integrating cfDNA methylation, copy number, and fragmentation facilitates multi-cancer early detection', Experimental and Molecular Medicine, vol. 55, no. 11, pp. 2445-2460. https://doi.org/10.1038/s12276-023-01119-5

TY - JOUR

T1 - Cancer signature ensemble integrating cfDNA methylation, copy number, and fragmentation facilitates multi-cancer early detection

AU - Kim, Su Yeon

AU - Jeong, Seongmun

AU - Lee, Wookjae

AU - Jeon, Yujin

AU - Kim, Yong Jin

AU - Park, Seowoo

AU - Lee, Dongin

AU - Go, Dayoung

AU - Song, Sang Hyun

AU - Lee, Sanghoo

AU - Woo, Hyun Goo

AU - Yoon, Jung Ki

AU - Park, Young Sik

AU - Kim, Young Tae

AU - Lee, Se Hoon

AU - Kim, Kwang Hyun

AU - Lim, Yoojoo

AU - Kim, Jin Soo

AU - Kim, Hwang Phill

AU - Bang, Duhee

AU - Kim, Tae You

PY - 2023/11

Y1 - 2023/11

N2 - 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.

AB - 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.

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SN - 1226-3613

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SP - 2445

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ER -

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

Abstract

Bibliographical note

All Science Journal Classification (ASJC) codes

UN SDGs

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