A deep learning system accurately classifies primary and metastatic cancers using passenger mutation patterns

PCAWG Tumor Subtypes and Clinical Translation Working Group; PCAWG Consortium

doi:10.1038/s41467-019-13825-8

A deep learning system accurately classifies primary and metastatic cancers using passenger mutation patterns

PCAWG Tumor Subtypes and Clinical Translation Working Group, PCAWG Consortium

Obstetrics, Gynecology and Women's Health - Oncology

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

113 Scopus citations

Abstract

In cancer, the primary tumour’s organ of origin and histopathology are the strongest determinants of its clinical behaviour, but in 3% of cases a patient presents with a metastatic tumour and no obvious primary. Here,as part of the ICGC/TCGA Pan-Cancer Analysis of Whole Genomes (PCAWG) Consortium, we train a deep learning classifier to predict cancer type based on patterns of somatic passenger mutations detected in whole genome sequencing (WGS) of 2606 tumours representing 24 common cancer types produced by the PCAWG Consortium. Our classifier achieves an accuracy of 91% on held-out tumor samples and 88% and 83% respectively on independent primary and metastatic samples, roughly double the accuracy of trained pathologists when presented with a metastatic tumour without knowledge of the primary. Surprisingly, adding information on driver mutations reduced accuracy. Our results have clinical applicability, underscore how patterns of somatic passenger mutations encode the state of the cell of origin, and can inform future strategies to detect the source of circulating tumour DNA.

Original language	English (US)
Article number	728
Journal	Nature communications
Volume	11
Issue number	1
DOIs	https://doi.org/10.1038/s41467-019-13825-8
State	Published - Dec 1 2020

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Publisher Copyright:
© 2020, The Author(s).

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title = "A deep learning system accurately classifies primary and metastatic cancers using passenger mutation patterns",

abstract = "In cancer, the primary tumour{\textquoteright}s organ of origin and histopathology are the strongest determinants of its clinical behaviour, but in 3% of cases a patient presents with a metastatic tumour and no obvious primary. Here,as part of the ICGC/TCGA Pan-Cancer Analysis of Whole Genomes (PCAWG) Consortium, we train a deep learning classifier to predict cancer type based on patterns of somatic passenger mutations detected in whole genome sequencing (WGS) of 2606 tumours representing 24 common cancer types produced by the PCAWG Consortium. Our classifier achieves an accuracy of 91% on held-out tumor samples and 88% and 83% respectively on independent primary and metastatic samples, roughly double the accuracy of trained pathologists when presented with a metastatic tumour without knowledge of the primary. Surprisingly, adding information on driver mutations reduced accuracy. Our results have clinical applicability, underscore how patterns of somatic passenger mutations encode the state of the cell of origin, and can inform future strategies to detect the source of circulating tumour DNA.",

author = "{PCAWG Tumor Subtypes and Clinical Translation Working Group} and {PCAWG Consortium} and Wei Jiao and Gurnit Atwal and Paz Polak and Rosa Karlic and Edwin Cuppen and Fatima Al-Shahrour and Gurnit Atwal and Bailey, {Peter J.} and Biankin, {Andrew V.} and Boutros, {Paul C.} and Campbell, {Peter J.} and Chang, {David K.} and Cooke, {Susanna L.} and Vikram Deshpande and Faltas, {Bishoy M.} and Faquin, {William C.} and Levi Garraway and Gad Getz and Grimmond, {Sean M.} and Syed Haider and Hoadley, {Katherine A.} and Wei Jiao and Kaiser, {Vera B.} and Rosa Karlic and Mamoru Kato and Kirsten K{\"u}bler and Lazar, {Alexander J.} and Li, {Constance H.} and Louis, {David N.} and Adam Margolin and Sancha Martin and Nahal-Bose, {Hardeep K.} and Nielsen, {G. Petur} and Serena Nik-Zainal and Larsson Omberg and Christine P{\textquoteright}ng and Perry, {Marc D.} and Paz Polak and Esther Rheinbay and Rubin, {Mark A.} and Semple, {Colin A.} and Sgroi, {Dennis C.} and Tatsuhiro Shibata and Reiner Siebert and Jaclyn Smith and Stein, {Lincoln D.} and Stobbe, {Miranda D.} and Sun, {Ren X.} and Giama, {Nasra H.} and Boris Winterhoff",

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AU - PCAWG Tumor Subtypes and Clinical Translation Working Group

AU - PCAWG Consortium

AU - Jiao, Wei

AU - Atwal, Gurnit

AU - Polak, Paz

AU - Karlic, Rosa

AU - Cuppen, Edwin

AU - Al-Shahrour, Fatima

AU - Atwal, Gurnit

AU - Bailey, Peter J.

AU - Biankin, Andrew V.

AU - Boutros, Paul C.

AU - Campbell, Peter J.

AU - Chang, David K.

AU - Cooke, Susanna L.

AU - Deshpande, Vikram

AU - Faltas, Bishoy M.

AU - Faquin, William C.

AU - Garraway, Levi

AU - Getz, Gad

AU - Grimmond, Sean M.

AU - Haider, Syed

AU - Hoadley, Katherine A.

AU - Jiao, Wei

AU - Kaiser, Vera B.

AU - Karlic, Rosa

AU - Kato, Mamoru

AU - Kübler, Kirsten

AU - Lazar, Alexander J.

AU - Li, Constance H.

AU - Louis, David N.

AU - Margolin, Adam

AU - Martin, Sancha

AU - Nahal-Bose, Hardeep K.

AU - Nielsen, G. Petur

AU - Nik-Zainal, Serena

AU - Omberg, Larsson

AU - P’ng, Christine

AU - Perry, Marc D.

AU - Polak, Paz

AU - Rheinbay, Esther

AU - Rubin, Mark A.

AU - Semple, Colin A.

AU - Sgroi, Dennis C.

AU - Shibata, Tatsuhiro

AU - Siebert, Reiner

AU - Smith, Jaclyn

AU - Stein, Lincoln D.

AU - Stobbe, Miranda D.

AU - Sun, Ren X.

AU - Giama, Nasra H.

AU - Winterhoff, Boris

PY - 2020/12/1

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N2 - In cancer, the primary tumour’s organ of origin and histopathology are the strongest determinants of its clinical behaviour, but in 3% of cases a patient presents with a metastatic tumour and no obvious primary. Here,as part of the ICGC/TCGA Pan-Cancer Analysis of Whole Genomes (PCAWG) Consortium, we train a deep learning classifier to predict cancer type based on patterns of somatic passenger mutations detected in whole genome sequencing (WGS) of 2606 tumours representing 24 common cancer types produced by the PCAWG Consortium. Our classifier achieves an accuracy of 91% on held-out tumor samples and 88% and 83% respectively on independent primary and metastatic samples, roughly double the accuracy of trained pathologists when presented with a metastatic tumour without knowledge of the primary. Surprisingly, adding information on driver mutations reduced accuracy. Our results have clinical applicability, underscore how patterns of somatic passenger mutations encode the state of the cell of origin, and can inform future strategies to detect the source of circulating tumour DNA.

AB - In cancer, the primary tumour’s organ of origin and histopathology are the strongest determinants of its clinical behaviour, but in 3% of cases a patient presents with a metastatic tumour and no obvious primary. Here,as part of the ICGC/TCGA Pan-Cancer Analysis of Whole Genomes (PCAWG) Consortium, we train a deep learning classifier to predict cancer type based on patterns of somatic passenger mutations detected in whole genome sequencing (WGS) of 2606 tumours representing 24 common cancer types produced by the PCAWG Consortium. Our classifier achieves an accuracy of 91% on held-out tumor samples and 88% and 83% respectively on independent primary and metastatic samples, roughly double the accuracy of trained pathologists when presented with a metastatic tumour without knowledge of the primary. Surprisingly, adding information on driver mutations reduced accuracy. Our results have clinical applicability, underscore how patterns of somatic passenger mutations encode the state of the cell of origin, and can inform future strategies to detect the source of circulating tumour DNA.

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A deep learning system accurately classifies primary and metastatic cancers using passenger mutation patterns

Abstract

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