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Integrating genomic features for non-invasive early lung cancer detection

Author

Listed:
  • Jacob J. Chabon

    (Stanford University
    Stanford University)

  • Emily G. Hamilton

    (Stanford University)

  • David M. Kurtz

    (Stanford University
    Stanford University
    Stanford University)

  • Mohammad S. Esfahani

    (Stanford University
    Stanford University)

  • Everett J. Moding

    (Stanford University
    Stanford University)

  • Henning Stehr

    (Stanford University)

  • Joseph Schroers-Martin

    (Stanford University
    Stanford University)

  • Barzin Y. Nabet

    (Stanford University
    Stanford University)

  • Binbin Chen

    (Stanford University
    Stanford University)

  • Aadel A. Chaudhuri

    (Washington University School of Medicine
    Washington University School of Medicine
    Washington University School of Medicine)

  • Chih Long Liu

    (Stanford University)

  • Angela B. Hui

    (Stanford University
    Stanford University)

  • Michael C. Jin

    (Stanford University)

  • Tej D. Azad

    (Stanford University)

  • Diego Almanza

    (Stanford University)

  • Young-Jun Jeon

    (Stanford University)

  • Monica C. Nesselbush

    (Stanford University)

  • Lyron Co Ting Keh

    (Stanford University)

  • Rene F. Bonilla

    (Stanford University)

  • Christopher H. Yoo

    (Stanford University)

  • Ryan B. Ko

    (Stanford University)

  • Emily L. Chen

    (Stanford University)

  • David J. Merriott

    (Stanford University)

  • Pierre P. Massion

    (Vanderbilt University Medical Center
    Tennessee Valley Healthcare System)

  • Aaron S. Mansfield

    (Division of Medical Oncology, Mayo Clinic)

  • Jin Jen

    (Mayo Clinic)

  • Hong Z. Ren

    (Mayo Clinic)

  • Steven H. Lin

    (University of Texas MD Anderson Cancer Center)

  • Christina L. Costantino

    (Harvard Medical School
    Harvard Medical School)

  • Risa Burr

    (Harvard Medical School
    Howard Hughes Medical Institute)

  • Robert Tibshirani

    (Stanford University
    Stanford University)

  • Sanjiv S. Gambhir

    (Stanford University
    Department of Radiology, Stanford University)

  • Gerald J. Berry

    (Stanford University)

  • Kristin C. Jensen

    (Stanford University
    Palo Alto)

  • Robert B. West

    (Stanford University)

  • Joel W. Neal

    (Stanford University)

  • Heather A. Wakelee

    (Stanford University)

  • Billy W. Loo

    (Stanford University)

  • Christian A. Kunder

    (Stanford University)

  • Ann N. Leung

    (Department of Radiology, Stanford University)

  • Natalie S. Lui

    (Stanford University)

  • Mark F. Berry

    (Stanford University)

  • Joseph B. Shrager

    (Palo Alto
    Stanford University)

  • Viswam S. Nair

    (Department of Radiology, Stanford University
    Fred Hutchinson Cancer Research Center
    University of Washington)

  • Daniel A. Haber

    (Harvard Medical School
    Howard Hughes Medical Institute
    Massachusetts General Hospital, Harvard Medical School)

  • Lecia V. Sequist

    (Harvard Medical School
    Massachusetts General Hospital, Harvard Medical School)

  • Ash A. Alizadeh

    (Stanford University
    Stanford University
    Stanford University
    Stanford University)

  • Maximilian Diehn

    (Stanford University
    Stanford University
    Stanford University)

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 ‘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.

Suggested Citation

  • 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 Lon, 2020. "Integrating genomic features for non-invasive early lung cancer detection," Nature, Nature, vol. 580(7802), pages 245-251, April.
    • Handle: RePEc:nat:nature:v:580:y:2020:i:7802:d:10.1038_s41586-020-2140-0
    DOI: 10.1038/s41586-020-2140-0
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    Citations

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    Cited by:

    1. Mary L. Stackpole & Weihua Zeng & Shuo Li & Chun-Chi Liu & Yonggang Zhou & Shanshan He & Angela Yeh & Ziye Wang & Fengzhu Sun & Qingjiao Li & Zuyang Yuan & Asli Yildirim & Pin-Jung Chen & Paul Winogra, 2022. "Cost-effective methylome sequencing of cell-free DNA for accurately detecting and locating cancer," Nature Communications, Nature, vol. 13(1), pages 1-12, December.
    2. Tiantian Wang & Peilong Li & Qiuchen Qi & Shujun Zhang & Yan Xie & Jing Wang & Shibiao Liu & Suhong Ma & Shijun Li & Tingting Gong & Huiting Xu & Mengqiu Xiong & Guanghua Li & Chongge You & Zhaofan Lu, 2023. "A multiplex blood-based assay targeting DNA methylation in PBMCs enables early detection of breast cancer," Nature Communications, Nature, vol. 14(1), pages 1-13, December.
    3. Nicolette M. Fonseca & Corinne Maurice-Dror & Cameron Herberts & Wilson Tu & William Fan & Andrew J. Murtha & Catarina Kollmannsberger & Edmond M. Kwan & Karan Parekh & Elena Schönlau & Cecily Q. Bern, 2024. "Prediction of plasma ctDNA fraction and prognostic implications of liquid biopsy in advanced prostate cancer," Nature Communications, Nature, vol. 15(1), pages 1-16, December.
    4. Xiao Zhou & Zhen Cheng & Mingyu Dong & Qi Liu & Weiyang Yang & Min Liu & Junzhang Tian & Weibin Cheng, 2022. "Tumor fractions deciphered from circulating cell-free DNA methylation for cancer early diagnosis," Nature Communications, Nature, vol. 13(1), pages 1-13, December.
    5. Jonathan C. M. Wan & Dennis Stephens & Lingqi Luo & James R. White & Caitlin M. Stewart & Benoît Rousseau & Dana W. Y. Tsui & Luis A. Diaz, 2022. "Genome-wide mutational signatures in low-coverage whole genome sequencing of cell-free DNA," Nature Communications, Nature, vol. 13(1), pages 1-12, December.
    6. Meng Nie & Ke Yao & Xinsheng Zhu & Na Chen & Nan Xiao & Yi Wang & Bo Peng & LiAng Yao & Peng Li & Peng Zhang & Zeping Hu, 2021. "Evolutionary metabolic landscape from preneoplasia to invasive lung adenocarcinoma," Nature Communications, Nature, vol. 12(1), pages 1-13, December.

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