Pan-cancer network analysis identifies combinations of rare somatic mutations across pathways and protein complexes

Mark D.M. Leiserson; Fabio Vandin; Hsin Ta Wu; Jason R. Dobson; Jonathan V. Eldridge; Jacob L. Thomas; Alexandra Papoutsaki; Younhun Kim; Beifang Niu; Michael McLellan; Michael S. Lawrence; Abel Gonzalez-Perez; David Tamborero; Yuwei Cheng; Gregory A. Ryslik; Nuria Lopez-Bigas; Gad Getz; Li Ding; Benjamin J. Raphael

doi:10.1038/ng.3168

Pan-cancer network analysis identifies combinations of rare somatic mutations across pathways and protein complexes

Mark D.M. Leiserson
, Fabio Vandin
, Hsin Ta Wu
, Jason R. Dobson
, Jonathan V. Eldridge
, Jacob L. Thomas
, Alexandra Papoutsaki
, Younhun Kim
, Beifang Niu
, Michael McLellan
, Michael S. Lawrence
, Abel Gonzalez-Perez
, David Tamborero
, Yuwei Cheng
, Gregory A. Ryslik
, Nuria Lopez-Bigas
, Gad Getz
, Li Ding
, Benjamin J. Raphael

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

713 Scopus citations

Abstract

Cancers exhibit extensive mutational heterogeneity, and the resulting long-tail phenomenon complicates the discovery of genes and pathways that are significantly mutated in cancer. We perform a pan-cancer analysis of mutated networks in 3,281 samples from 12 cancer types from The Cancer Genome Atlas (TCGA) using HotNet2, a new algorithm to find mutated subnetworks that overcomes the limitations of existing single-gene, pathway and network approaches. We identify 16 significantly mutated subnetworks that comprise well-known cancer signaling pathways as well as subnetworks with less characterized roles in cancer, including cohesin, condensin and others. Many of these subnetworks exhibit co-occurring mutations across samples. These subnetworks contain dozens of genes with rare somatic mutations across multiple cancers; many of these genes have additional evidence supporting a role in cancer. By illuminating these rare combinations of mutations, pan-cancer network analyses provide a roadmap to investigate new diagnostic and therapeutic opportunities across cancer types.

Original language	English
Pages (from-to)	106-114
Number of pages	9
Journal	Nature Genetics
Volume	47
Issue number	2
DOIs	https://doi.org/10.1038/ng.3168
State	Published - Jan 1 2015

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Leiserson, M. D. M., Vandin, F., Wu, H. T., Dobson, J. R., Eldridge, J. V., Thomas, J. L., Papoutsaki, A., Kim, Y., Niu, B., McLellan, M., Lawrence, M. S., Gonzalez-Perez, A., Tamborero, D., Cheng, Y., Ryslik, G. A., Lopez-Bigas, N., Getz, G., Ding, L., & Raphael, B. J. (2015). Pan-cancer network analysis identifies combinations of rare somatic mutations across pathways and protein complexes. Nature Genetics, 47(2), 106-114. https://doi.org/10.1038/ng.3168

@article{4458331d30654329969f67c0a45b1561,

title = "Pan-cancer network analysis identifies combinations of rare somatic mutations across pathways and protein complexes",

abstract = "Cancers exhibit extensive mutational heterogeneity, and the resulting long-tail phenomenon complicates the discovery of genes and pathways that are significantly mutated in cancer. We perform a pan-cancer analysis of mutated networks in 3,281 samples from 12 cancer types from The Cancer Genome Atlas (TCGA) using HotNet2, a new algorithm to find mutated subnetworks that overcomes the limitations of existing single-gene, pathway and network approaches. We identify 16 significantly mutated subnetworks that comprise well-known cancer signaling pathways as well as subnetworks with less characterized roles in cancer, including cohesin, condensin and others. Many of these subnetworks exhibit co-occurring mutations across samples. These subnetworks contain dozens of genes with rare somatic mutations across multiple cancers; many of these genes have additional evidence supporting a role in cancer. By illuminating these rare combinations of mutations, pan-cancer network analyses provide a roadmap to investigate new diagnostic and therapeutic opportunities across cancer types.",

author = "Leiserson, \{Mark D.M.\} and Fabio Vandin and Wu, \{Hsin Ta\} and Dobson, \{Jason R.\} and Eldridge, \{Jonathan V.\} and Thomas, \{Jacob L.\} and Alexandra Papoutsaki and Younhun Kim and Beifang Niu and Michael McLellan and Lawrence, \{Michael S.\} and Abel Gonzalez-Perez and David Tamborero and Yuwei Cheng and Ryslik, \{Gregory A.\} and Nuria Lopez-Bigas and Gad Getz and Li Ding and Raphael, \{Benjamin J.\}",

year = "2015",

month = jan,

day = "1",

doi = "10.1038/ng.3168",

language = "English",

volume = "47",

pages = "106--114",

journal = "Nature Genetics",

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number = "2",

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Leiserson, MDM, Vandin, F, Wu, HT, Dobson, JR, Eldridge, JV, Thomas, JL, Papoutsaki, A, Kim, Y, Niu, B, McLellan, M, Lawrence, MS, Gonzalez-Perez, A, Tamborero, D, Cheng, Y, Ryslik, GA, Lopez-Bigas, N, Getz, G, Ding, L & Raphael, BJ 2015, 'Pan-cancer network analysis identifies combinations of rare somatic mutations across pathways and protein complexes', Nature Genetics, vol. 47, no. 2, pp. 106-114. https://doi.org/10.1038/ng.3168

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T1 - Pan-cancer network analysis identifies combinations of rare somatic mutations across pathways and protein complexes

AU - Leiserson, Mark D.M.

AU - Vandin, Fabio

AU - Wu, Hsin Ta

AU - Dobson, Jason R.

AU - Eldridge, Jonathan V.

AU - Thomas, Jacob L.

AU - Papoutsaki, Alexandra

AU - Kim, Younhun

AU - Niu, Beifang

AU - McLellan, Michael

AU - Lawrence, Michael S.

AU - Gonzalez-Perez, Abel

AU - Tamborero, David

AU - Cheng, Yuwei

AU - Ryslik, Gregory A.

AU - Lopez-Bigas, Nuria

AU - Getz, Gad

AU - Ding, Li

AU - Raphael, Benjamin J.

PY - 2015/1/1

Y1 - 2015/1/1

N2 - Cancers exhibit extensive mutational heterogeneity, and the resulting long-tail phenomenon complicates the discovery of genes and pathways that are significantly mutated in cancer. We perform a pan-cancer analysis of mutated networks in 3,281 samples from 12 cancer types from The Cancer Genome Atlas (TCGA) using HotNet2, a new algorithm to find mutated subnetworks that overcomes the limitations of existing single-gene, pathway and network approaches. We identify 16 significantly mutated subnetworks that comprise well-known cancer signaling pathways as well as subnetworks with less characterized roles in cancer, including cohesin, condensin and others. Many of these subnetworks exhibit co-occurring mutations across samples. These subnetworks contain dozens of genes with rare somatic mutations across multiple cancers; many of these genes have additional evidence supporting a role in cancer. By illuminating these rare combinations of mutations, pan-cancer network analyses provide a roadmap to investigate new diagnostic and therapeutic opportunities across cancer types.

AB - Cancers exhibit extensive mutational heterogeneity, and the resulting long-tail phenomenon complicates the discovery of genes and pathways that are significantly mutated in cancer. We perform a pan-cancer analysis of mutated networks in 3,281 samples from 12 cancer types from The Cancer Genome Atlas (TCGA) using HotNet2, a new algorithm to find mutated subnetworks that overcomes the limitations of existing single-gene, pathway and network approaches. We identify 16 significantly mutated subnetworks that comprise well-known cancer signaling pathways as well as subnetworks with less characterized roles in cancer, including cohesin, condensin and others. Many of these subnetworks exhibit co-occurring mutations across samples. These subnetworks contain dozens of genes with rare somatic mutations across multiple cancers; many of these genes have additional evidence supporting a role in cancer. By illuminating these rare combinations of mutations, pan-cancer network analyses provide a roadmap to investigate new diagnostic and therapeutic opportunities across cancer types.

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DO - 10.1038/ng.3168

M3 - Article

C2 - 25501392

AN - SCOPUS:84926157747

SN - 1061-4036

VL - 47

SP - 106

EP - 114

JO - Nature Genetics

JF - Nature Genetics

IS - 2

ER -

Pan-cancer network analysis identifies combinations of rare somatic mutations across pathways and protein complexes

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