Integrating genomic features for non-invasive early lung cancer detection

Jacob J. Chabon; Emily G. Hamilton; David M. Kurtz; Mohammad S. Esfahani; Everett J. Moding; Henning Stehr; Joseph Schroers-Martin; Barzin Y. Nabet; Binbin Chen; Aadel A. Chaudhuri; Chih Long Liu; Angela B. Hui; Michael C. Jin; Tej D. Azad; Diego Almanza; Young Jun Jeon; Monica C. Nesselbush; Lyron Co Ting Keh; Rene F. Bonilla; Christopher H. Yoo; Ryan B. Ko; Emily L. Chen; David J. Merriott; Pierre P. Massion; Aaron S. Mansfield; Jin Jen; Hong Z. Ren; Steven H. Lin; Christina L. Costantino; Risa Burr; Robert Tibshirani; Sanjiv S. Gambhir; Gerald J. Berry; Kristin C. Jensen; Robert B. West; Joel W. Neal; Heather A. Wakelee; Billy W. Loo; Christian A. Kunder; Ann N. Leung; Natalie S. Lui; Mark F. Berry; Joseph B. Shrager; Viswam S. Nair; Daniel A. Haber; Lecia V. Sequist; Ash A. Alizadeh; Maximilian Diehn

doi:10.1038/s41586-020-2140-0

Integrating genomic features for non-invasive early lung cancer detection

Jacob J. Chabon
, Emily G. Hamilton
, David M. Kurtz
, Mohammad S. Esfahani
, Everett J. Moding
, Henning Stehr
, Joseph Schroers-Martin
, Barzin Y. Nabet
, Binbin Chen
, Aadel A. Chaudhuri
, Chih Long Liu
, Angela B. Hui
, Michael C. Jin
, Tej D. Azad
, Diego Almanza
, Young Jun Jeon
, Monica C. Nesselbush
, Lyron Co Ting Keh
, Rene F. Bonilla
, Christopher H. Yoo

Ryan B. Ko, Emily L. Chen, David J. Merriott, Pierre P. Massion, Aaron S. Mansfield, Jin Jen, Hong Z. Ren, Steven H. Lin, Christina L. Costantino, Risa Burr, Robert Tibshirani, Sanjiv S. Gambhir, Gerald J. Berry, Kristin C. Jensen, Robert B. West, Joel W. Neal, Heather A. Wakelee, Billy W. Loo, Christian A. Kunder, Ann N. Leung, Natalie S. Lui, Mark F. Berry, Joseph B. Shrager, Viswam S. Nair, Daniel A. Haber, Lecia V. Sequist, Ash A. Alizadeh, Maximilian Diehn

Stanford University
Washington University St. Louis
Vanderbilt University
Veterans Affairs
Mayo Clinic Rochester, MN
University of Texas MD Anderson Cancer Center
Harvard University
Howard Hughes Medical Institute
Department of Veterans Affairs
Fred Hutchinson Cancer Research Center
University of Washington

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

583 Scopus citations

Abstract

Radiologic screening of high-risk adults reduces lung-cancer-related mortality^1,2; however, a small minority of eligible individuals undergo such screening in the United States^3,4. The availability of blood-based tests could increase screening uptake. Here we introduce improvements to cancer personalized profiling by deep sequencing (CAPP-Seq)⁵, a method for the analysis of circulating tumour DNA (ctDNA), to better facilitate screening applications. We show that, although levels are very low in early-stage lung cancers, ctDNA is present prior to treatment in most patients and its presence is strongly prognostic. We also find that the majority of somatic mutations in the cell-free DNA (cfDNA) of patients with lung cancer and of risk-matched controls reflect clonal haematopoiesis and are non-recurrent. Compared with tumour-derived mutations, clonal haematopoiesis mutations occur on longer cfDNA fragments and lack mutational signatures that are associated with tobacco smoking. Integrating these findings with other molecular features, we develop and prospectively validate a machine-learning method termed ‘lung cancer likelihood in plasma’ (Lung-CLiP), which can robustly discriminate early-stage lung cancer patients from risk-matched controls. This approach achieves performance similar to that of tumour-informed ctDNA detection and enables tuning of assay specificity in order to facilitate distinct clinical applications. Our findings establish the potential of cfDNA for lung cancer screening and highlight the importance of risk-matching cases and controls in cfDNA-based screening studies.

Original language	English
Pages (from-to)	245-251
Number of pages	7
Journal	Nature
Volume	580
Issue number	7802
DOIs	https://doi.org/10.1038/s41586-020-2140-0
State	Published - 9 Apr 2020
Externally published	Yes

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SDG 3 Good Health and Well-being

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10.1038/s41586-020-2140-0

Cite this

Chabon, J. J., Hamilton, E. G., Kurtz, D. M., Esfahani, M. S., Moding, E. J., Stehr, H., Schroers-Martin, J., Nabet, B. Y., Chen, B., Chaudhuri, A. A., Liu, C. L., Hui, A. B., Jin, M. C., Azad, T. D., Almanza, D., Jeon, Y. J., Nesselbush, M. C., Co Ting Keh, L., Bonilla, R. F., ... Diehn, M. (2020). Integrating genomic features for non-invasive early lung cancer detection. Nature, 580(7802), 245-251. https://doi.org/10.1038/s41586-020-2140-0

@article{19ae4a3037274a548286c3794fd3c431,

title = "Integrating genomic features for non-invasive early lung cancer detection",

abstract = "Radiologic screening of high-risk adults reduces lung-cancer-related mortality1,2; however, a small minority of eligible individuals undergo such screening in the United States3,4. The availability of blood-based tests could increase screening uptake. Here we introduce improvements to cancer personalized profiling by deep sequencing (CAPP-Seq)5, a method for the analysis of circulating tumour DNA (ctDNA), to better facilitate screening applications. We show that, although levels are very low in early-stage lung cancers, ctDNA is present prior to treatment in most patients and its presence is strongly prognostic. We also find that the majority of somatic mutations in the cell-free DNA (cfDNA) of patients with lung cancer and of risk-matched controls reflect clonal haematopoiesis and are non-recurrent. Compared with tumour-derived mutations, clonal haematopoiesis mutations occur on longer cfDNA fragments and lack mutational signatures that are associated with tobacco smoking. Integrating these findings with other molecular features, we develop and prospectively validate a machine-learning method termed {\textquoteleft}lung cancer likelihood in plasma{\textquoteright} (Lung-CLiP), which can robustly discriminate early-stage lung cancer patients from risk-matched controls. This approach achieves performance similar to that of tumour-informed ctDNA detection and enables tuning of assay specificity in order to facilitate distinct clinical applications. Our findings establish the potential of cfDNA for lung cancer screening and highlight the importance of risk-matching cases and controls in cfDNA-based screening studies.",

author = "Chabon, \{Jacob J.\} and Hamilton, \{Emily G.\} and Kurtz, \{David M.\} and Esfahani, \{Mohammad S.\} and Moding, \{Everett J.\} and Henning Stehr and Joseph Schroers-Martin and Nabet, \{Barzin Y.\} and Binbin Chen and Chaudhuri, \{Aadel A.\} and Liu, \{Chih Long\} and Hui, \{Angela B.\} and Jin, \{Michael C.\} and Azad, \{Tej D.\} and Diego Almanza and Jeon, \{Young Jun\} and Nesselbush, \{Monica C.\} and \{Co Ting Keh\}, Lyron and Bonilla, \{Rene F.\} and Yoo, \{Christopher H.\} and Ko, \{Ryan B.\} and Chen, \{Emily L.\} and Merriott, \{David J.\} and Massion, \{Pierre P.\} and Mansfield, \{Aaron S.\} and Jin Jen and Ren, \{Hong Z.\} and Lin, \{Steven H.\} and Costantino, \{Christina L.\} and Risa Burr and Robert Tibshirani and Gambhir, \{Sanjiv S.\} and Berry, \{Gerald J.\} and Jensen, \{Kristin C.\} and West, \{Robert B.\} and Neal, \{Joel W.\} and Wakelee, \{Heather A.\} and Loo, \{Billy W.\} and Kunder, \{Christian A.\} and Leung, \{Ann N.\} and Lui, \{Natalie S.\} and Berry, \{Mark F.\} and Shrager, \{Joseph B.\} and Nair, \{Viswam S.\} and Haber, \{Daniel A.\} and Sequist, \{Lecia V.\} and Alizadeh, \{Ash A.\} and Maximilian Diehn",

note = "Publisher Copyright: {\textcopyright} 2020, The Author(s), under exclusive licence to Springer Nature Limited.",

year = "2020",

month = apr,

day = "9",

doi = "10.1038/s41586-020-2140-0",

language = "English",

volume = "580",

pages = "245--251",

journal = "Nature",

issn = "0028-0836",

publisher = "Nature Research",

number = "7802",

}

Chabon, JJ, Hamilton, EG, Kurtz, DM, Esfahani, MS, Moding, EJ, Stehr, H, Schroers-Martin, J, Nabet, BY, Chen, B, Chaudhuri, AA, Liu, CL, Hui, AB, Jin, MC, Azad, TD, Almanza, D, Jeon, YJ, Nesselbush, MC, Co Ting Keh, L, Bonilla, RF, Yoo, CH, Ko, RB, Chen, EL, Merriott, DJ, Massion, PP, Mansfield, AS, Jen, J, Ren, HZ, Lin, SH, Costantino, CL, Burr, R, Tibshirani, R, Gambhir, SS, Berry, GJ, Jensen, KC, West, RB, Neal, JW, Wakelee, HA, Loo, BW, Kunder, CA, Leung, AN, Lui, NS, Berry, MF, Shrager, JB, Nair, VS, Haber, DA, Sequist, LV, Alizadeh, AA & Diehn, M 2020, 'Integrating genomic features for non-invasive early lung cancer detection', Nature, vol. 580, no. 7802, pp. 245-251. https://doi.org/10.1038/s41586-020-2140-0

TY - JOUR

T1 - Integrating genomic features for non-invasive early lung cancer detection

AU - Chabon, Jacob J.

AU - Hamilton, Emily G.

AU - Kurtz, David M.

AU - Esfahani, Mohammad S.

AU - Moding, Everett J.

AU - Stehr, Henning

AU - Schroers-Martin, Joseph

AU - Nabet, Barzin Y.

AU - Chen, Binbin

AU - Chaudhuri, Aadel A.

AU - Liu, Chih Long

AU - Hui, Angela B.

AU - Jin, Michael C.

AU - Azad, Tej D.

AU - Almanza, Diego

AU - Jeon, Young Jun

AU - Nesselbush, Monica C.

AU - Co Ting Keh, Lyron

AU - Bonilla, Rene F.

AU - Yoo, Christopher H.

AU - Ko, Ryan B.

AU - Chen, Emily L.

AU - Merriott, David J.

AU - Massion, Pierre P.

AU - Mansfield, Aaron S.

AU - Jen, Jin

AU - Ren, Hong Z.

AU - Lin, Steven H.

AU - Costantino, Christina L.

AU - Burr, Risa

AU - Tibshirani, Robert

AU - Gambhir, Sanjiv S.

AU - Berry, Gerald J.

AU - Jensen, Kristin C.

AU - West, Robert B.

AU - Neal, Joel W.

AU - Wakelee, Heather A.

AU - Loo, Billy W.

AU - Kunder, Christian A.

AU - Leung, Ann N.

AU - Lui, Natalie S.

AU - Berry, Mark F.

AU - Shrager, Joseph B.

AU - Nair, Viswam S.

AU - Haber, Daniel A.

AU - Sequist, Lecia V.

AU - Alizadeh, Ash A.

AU - Diehn, Maximilian

PY - 2020/4/9

Y1 - 2020/4/9

N2 - Radiologic screening of high-risk adults reduces lung-cancer-related mortality1,2; however, a small minority of eligible individuals undergo such screening in the United States3,4. The availability of blood-based tests could increase screening uptake. Here we introduce improvements to cancer personalized profiling by deep sequencing (CAPP-Seq)5, a method for the analysis of circulating tumour DNA (ctDNA), to better facilitate screening applications. We show that, although levels are very low in early-stage lung cancers, ctDNA is present prior to treatment in most patients and its presence is strongly prognostic. We also find that the majority of somatic mutations in the cell-free DNA (cfDNA) of patients with lung cancer and of risk-matched controls reflect clonal haematopoiesis and are non-recurrent. Compared with tumour-derived mutations, clonal haematopoiesis mutations occur on longer cfDNA fragments and lack mutational signatures that are associated with tobacco smoking. Integrating these findings with other molecular features, we develop and prospectively validate a machine-learning method termed ‘lung cancer likelihood in plasma’ (Lung-CLiP), which can robustly discriminate early-stage lung cancer patients from risk-matched controls. This approach achieves performance similar to that of tumour-informed ctDNA detection and enables tuning of assay specificity in order to facilitate distinct clinical applications. Our findings establish the potential of cfDNA for lung cancer screening and highlight the importance of risk-matching cases and controls in cfDNA-based screening studies.

AB - Radiologic screening of high-risk adults reduces lung-cancer-related mortality1,2; however, a small minority of eligible individuals undergo such screening in the United States3,4. The availability of blood-based tests could increase screening uptake. Here we introduce improvements to cancer personalized profiling by deep sequencing (CAPP-Seq)5, a method for the analysis of circulating tumour DNA (ctDNA), to better facilitate screening applications. We show that, although levels are very low in early-stage lung cancers, ctDNA is present prior to treatment in most patients and its presence is strongly prognostic. We also find that the majority of somatic mutations in the cell-free DNA (cfDNA) of patients with lung cancer and of risk-matched controls reflect clonal haematopoiesis and are non-recurrent. Compared with tumour-derived mutations, clonal haematopoiesis mutations occur on longer cfDNA fragments and lack mutational signatures that are associated with tobacco smoking. Integrating these findings with other molecular features, we develop and prospectively validate a machine-learning method termed ‘lung cancer likelihood in plasma’ (Lung-CLiP), which can robustly discriminate early-stage lung cancer patients from risk-matched controls. This approach achieves performance similar to that of tumour-informed ctDNA detection and enables tuning of assay specificity in order to facilitate distinct clinical applications. Our findings establish the potential of cfDNA for lung cancer screening and highlight the importance of risk-matching cases and controls in cfDNA-based screening studies.

UR - https://www.scopus.com/pages/publications/85082951977

U2 - 10.1038/s41586-020-2140-0

DO - 10.1038/s41586-020-2140-0

M3 - Article

C2 - 32269342

AN - SCOPUS:85082951977

SN - 0028-0836

VL - 580

SP - 245

EP - 251

JO - Nature

JF - Nature

IS - 7802

ER -

Integrating genomic features for non-invasive early lung cancer detection

Abstract

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