Comprehensive analysis of chromothripsis in 2,658 human cancers using whole-genome sequencing

PCAWG Structural Variation Working Group; PCAWG Consortium

doi:10.1038/s41588-019-0576-7

Comprehensive analysis of chromothripsis in 2,658 human cancers using whole-genome sequencing

PCAWG Structural Variation Working Group
, PCAWG Consortium

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531 引文斯高帕斯（Scopus）

摘要

Chromothripsis is a mutational phenomenon characterized by massive, clustered genomic rearrangements that occurs in cancer and other diseases. Recent studies in selected cancer types have suggested that chromothripsis may be more common than initially inferred from low-resolution copy-number data. Here, as part of the Pan-Cancer Analysis of Whole Genomes (PCAWG) Consortium of the International Cancer Genome Consortium (ICGC) and The Cancer Genome Atlas (TCGA), we analyze patterns of chromothripsis across 2,658 tumors from 38 cancer types using whole-genome sequencing data. We find that chromothripsis events are pervasive across cancers, with a frequency of more than 50% in several cancer types. Whereas canonical chromothripsis profiles display oscillations between two copy-number states, a considerable fraction of events involve multiple chromosomes and additional structural alterations. In addition to non-homologous end joining, we detect signatures of replication-associated processes and templated insertions. Chromothripsis contributes to oncogene amplification and to inactivation of genes such as mismatch-repair-related genes. These findings show that chromothripsis is a major process that drives genome evolution in human cancer.

原文	英語
頁（從 - 到）	331-341
頁數	11
期刊	Nature Genetics
卷	52
發行號	3
DOIs	https://doi.org/10.1038/s41588-019-0576-7
出版狀態	已出版 - 01 03 2020
對外發佈	是

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@article{0e06934564b64e9cbbbbb73d5871d3ad,

title = "Comprehensive analysis of chromothripsis in 2,658 human cancers using whole-genome sequencing",

abstract = "Chromothripsis is a mutational phenomenon characterized by massive, clustered genomic rearrangements that occurs in cancer and other diseases. Recent studies in selected cancer types have suggested that chromothripsis may be more common than initially inferred from low-resolution copy-number data. Here, as part of the Pan-Cancer Analysis of Whole Genomes (PCAWG) Consortium of the International Cancer Genome Consortium (ICGC) and The Cancer Genome Atlas (TCGA), we analyze patterns of chromothripsis across 2,658 tumors from 38 cancer types using whole-genome sequencing data. We find that chromothripsis events are pervasive across cancers, with a frequency of more than 50\% in several cancer types. Whereas canonical chromothripsis profiles display oscillations between two copy-number states, a considerable fraction of events involve multiple chromosomes and additional structural alterations. In addition to non-homologous end joining, we detect signatures of replication-associated processes and templated insertions. Chromothripsis contributes to oncogene amplification and to inactivation of genes such as mismatch-repair-related genes. These findings show that chromothripsis is a major process that drives genome evolution in human cancer.",

author = "\{PCAWG Structural Variation Working Group\} and \{PCAWG Consortium\} and Isidro Cort{\'e}s-Ciriano and Lee, \{Jake June Koo\} and Ruibin Xi and Dhawal Jain and Jung, \{Youngsook L.\} and Lixing Yang and Dmitry Gordenin and Klimczak, \{Leszek J.\} and Zhang, \{Cheng Zhong\} and Pellman, \{David S.\} and Akdemir, \{Kadir C.\} and Alvarez, \{Eva G.\} and Adrian Baez-Ortega and Rameen Beroukhim and Boutros, \{Paul C.\} and Bowtell, \{David D.L.\} and Benedikt Brors and Burns, \{Kathleen H.\} and Campbell, \{Peter J.\} and Kin Chan and Ken Chen and Isidro Cort{\'e}s-Ciriano and Ana Dueso-Barroso and Dunford, \{Andrew J.\} and Edwards, \{Paul A.\} and Xavier Estivill and Dariush Etemadmoghadam and Lars Feuerbach and Fink, \{J. Lynn\} and Milana Frenkel-Morgenstern and Garsed, \{Dale W.\} and Mark Gerstein and Gordenin, \{Dmitry A.\} and David Haan and Haber, \{James E.\} and Hess, \{Julian M.\} and Barbara Hutter and Marcin Imielinski and Jones, \{David T.W.\} and Ju, \{Young Seok\} and Kazanov, \{Marat D.\} and Youngil Koh and Korbel, \{Jan O.\} and Kiran Kumar and Lee, \{Eunjung Alice\} and Yilong Li and Lynch, \{Andy G.\} and Geoff Macintyre and Florian Markowetz and Rozen, \{Steven G.\}",

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day = "1",

doi = "10.1038/s41588-019-0576-7",

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AU - Xi, Ruibin

AU - Jain, Dhawal

AU - Jung, Youngsook L.

AU - Yang, Lixing

AU - Gordenin, Dmitry

AU - Klimczak, Leszek J.

AU - Zhang, Cheng Zhong

AU - Pellman, David S.

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AU - Bowtell, David D.L.

AU - Brors, Benedikt

AU - Burns, Kathleen H.

AU - Campbell, Peter J.

AU - Chan, Kin

AU - Chen, Ken

AU - Cortés-Ciriano, Isidro

AU - Dueso-Barroso, Ana

AU - Dunford, Andrew J.

AU - Edwards, Paul A.

AU - Estivill, Xavier

AU - Etemadmoghadam, Dariush

AU - Feuerbach, Lars

AU - Fink, J. Lynn

AU - Frenkel-Morgenstern, Milana

AU - Garsed, Dale W.

AU - Gerstein, Mark

AU - Gordenin, Dmitry A.

AU - Haan, David

AU - Haber, James E.

AU - Hess, Julian M.

AU - Hutter, Barbara

AU - Imielinski, Marcin

AU - Jones, David T.W.

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AU - Kazanov, Marat D.

AU - Koh, Youngil

AU - Korbel, Jan O.

AU - Kumar, Kiran

AU - Lee, Eunjung Alice

AU - Li, Yilong

AU - Lynch, Andy G.

AU - Macintyre, Geoff

AU - Markowetz, Florian

AU - Rozen, Steven G.

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N2 - Chromothripsis is a mutational phenomenon characterized by massive, clustered genomic rearrangements that occurs in cancer and other diseases. Recent studies in selected cancer types have suggested that chromothripsis may be more common than initially inferred from low-resolution copy-number data. Here, as part of the Pan-Cancer Analysis of Whole Genomes (PCAWG) Consortium of the International Cancer Genome Consortium (ICGC) and The Cancer Genome Atlas (TCGA), we analyze patterns of chromothripsis across 2,658 tumors from 38 cancer types using whole-genome sequencing data. We find that chromothripsis events are pervasive across cancers, with a frequency of more than 50% in several cancer types. Whereas canonical chromothripsis profiles display oscillations between two copy-number states, a considerable fraction of events involve multiple chromosomes and additional structural alterations. In addition to non-homologous end joining, we detect signatures of replication-associated processes and templated insertions. Chromothripsis contributes to oncogene amplification and to inactivation of genes such as mismatch-repair-related genes. These findings show that chromothripsis is a major process that drives genome evolution in human cancer.

AB - Chromothripsis is a mutational phenomenon characterized by massive, clustered genomic rearrangements that occurs in cancer and other diseases. Recent studies in selected cancer types have suggested that chromothripsis may be more common than initially inferred from low-resolution copy-number data. Here, as part of the Pan-Cancer Analysis of Whole Genomes (PCAWG) Consortium of the International Cancer Genome Consortium (ICGC) and The Cancer Genome Atlas (TCGA), we analyze patterns of chromothripsis across 2,658 tumors from 38 cancer types using whole-genome sequencing data. We find that chromothripsis events are pervasive across cancers, with a frequency of more than 50% in several cancer types. Whereas canonical chromothripsis profiles display oscillations between two copy-number states, a considerable fraction of events involve multiple chromosomes and additional structural alterations. In addition to non-homologous end joining, we detect signatures of replication-associated processes and templated insertions. Chromothripsis contributes to oncogene amplification and to inactivation of genes such as mismatch-repair-related genes. These findings show that chromothripsis is a major process that drives genome evolution in human cancer.

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DO - 10.1038/s41588-019-0576-7

M3 - 文章

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AN - SCOPUS:85079044799

SN - 1061-4036

VL - 52

SP - 331

EP - 341

JO - Nature Genetics

JF - Nature Genetics

IS - 3

ER -

Comprehensive analysis of chromothripsis in 2,658 human cancers using whole-genome sequencing

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