Genomic catastrophes frequently arise in esophageal adenocarcinoma and drive tumorigenesis

Oesophageal adenocarcinoma (EAC) incidence is rapidly increasing in Western countries. A better understanding of EAC underpins efforts to improve early detection and treatment outcomes. While large EAC exome sequencing efforts to date have found recurrent loss-of-function mutations, oncogenic drivin...

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Autores principales: Nones, Katia, Waddell, Nicola, Wayte, Nicci, Patch, Ann-Marie, Bailey, Peter, Newell, Felicity, Holmes, Oliver, Fink, J. Lynn, Quinn, Michael C.J., Tang, Yue Hang, Lampe, Guy, Quek, Kelly, Loffler, Kelly A., Manning, Suzanne, Idrisoglu, Senel, Miller, David, Xu, Qinying, Waddell, Nick, Wilson, Peter J., Bruxner, Timothy J.C., Christ, Angelika N., Harliwong, Ivon, Nourse, Craig, Nourbakhsh, Ehsan, Anderson, Matthew, Kazakoff, Stephen, Leonard, Conrad, Wood, Scott, Simpson, Peter T., Reid, Lynne E., Krause, Lutz, Hussey, Damian J., Watson, David I., Lord, Reginald V., Nancarrow, Derek, Phillips, Wayne A., Gotley, David, Smithers, B. Mark, Whiteman, David C., Hayward, Nicholas K., Campbell, Peter J., Pearson, John V., Grimmond, Sean M., Barbour, Andrew P.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: 2014
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4596003/
https://www.ncbi.nlm.nih.gov/pubmed/25351503
http://dx.doi.org/10.1038/ncomms6224
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author Nones, Katia
Waddell, Nicola
Wayte, Nicci
Patch, Ann-Marie
Bailey, Peter
Newell, Felicity
Holmes, Oliver
Fink, J. Lynn
Quinn, Michael C.J.
Tang, Yue Hang
Lampe, Guy
Quek, Kelly
Loffler, Kelly A.
Manning, Suzanne
Idrisoglu, Senel
Miller, David
Xu, Qinying
Waddell, Nick
Wilson, Peter J.
Bruxner, Timothy J.C.
Christ, Angelika N.
Harliwong, Ivon
Nourse, Craig
Nourbakhsh, Ehsan
Anderson, Matthew
Kazakoff, Stephen
Leonard, Conrad
Wood, Scott
Simpson, Peter T.
Reid, Lynne E.
Krause, Lutz
Hussey, Damian J.
Watson, David I.
Lord, Reginald V.
Nancarrow, Derek
Phillips, Wayne A.
Gotley, David
Smithers, B. Mark
Whiteman, David C.
Hayward, Nicholas K.
Campbell, Peter J.
Pearson, John V.
Grimmond, Sean M.
Barbour, Andrew P.
author_facet Nones, Katia
Waddell, Nicola
Wayte, Nicci
Patch, Ann-Marie
Bailey, Peter
Newell, Felicity
Holmes, Oliver
Fink, J. Lynn
Quinn, Michael C.J.
Tang, Yue Hang
Lampe, Guy
Quek, Kelly
Loffler, Kelly A.
Manning, Suzanne
Idrisoglu, Senel
Miller, David
Xu, Qinying
Waddell, Nick
Wilson, Peter J.
Bruxner, Timothy J.C.
Christ, Angelika N.
Harliwong, Ivon
Nourse, Craig
Nourbakhsh, Ehsan
Anderson, Matthew
Kazakoff, Stephen
Leonard, Conrad
Wood, Scott
Simpson, Peter T.
Reid, Lynne E.
Krause, Lutz
Hussey, Damian J.
Watson, David I.
Lord, Reginald V.
Nancarrow, Derek
Phillips, Wayne A.
Gotley, David
Smithers, B. Mark
Whiteman, David C.
Hayward, Nicholas K.
Campbell, Peter J.
Pearson, John V.
Grimmond, Sean M.
Barbour, Andrew P.
author_sort Nones, Katia
collection PubMed
description Oesophageal adenocarcinoma (EAC) incidence is rapidly increasing in Western countries. A better understanding of EAC underpins efforts to improve early detection and treatment outcomes. While large EAC exome sequencing efforts to date have found recurrent loss-of-function mutations, oncogenic driving events have been underrepresented. Here we use a combination of whole-genome sequencing (WGS) and single-nucleotide polymorphism-array profiling to show that genomic catastrophes are frequent in EAC, with almost a third (32%, n = 40/123) undergoing chromothriptic events. WGS of 22 EAC cases show that catastrophes may lead to oncogene amplification through chromothripsis-derived double-minute chromosome formation (MYC and MDM2) or breakage-fusion-bridge (KRAS, MDM2 and RFC3). Telomere shortening is more prominent in EACs bearing localized complex rearrangements. Mutational signature analysis also confirms that extreme genomic instability in EAC can be driven by somatic BRCA2 mutations. These findings suggest that genomic catastrophes have a significant role in the malignant transformation of EAC.
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spelling pubmed-45960032015-10-07 Genomic catastrophes frequently arise in esophageal adenocarcinoma and drive tumorigenesis Nones, Katia Waddell, Nicola Wayte, Nicci Patch, Ann-Marie Bailey, Peter Newell, Felicity Holmes, Oliver Fink, J. Lynn Quinn, Michael C.J. Tang, Yue Hang Lampe, Guy Quek, Kelly Loffler, Kelly A. Manning, Suzanne Idrisoglu, Senel Miller, David Xu, Qinying Waddell, Nick Wilson, Peter J. Bruxner, Timothy J.C. Christ, Angelika N. Harliwong, Ivon Nourse, Craig Nourbakhsh, Ehsan Anderson, Matthew Kazakoff, Stephen Leonard, Conrad Wood, Scott Simpson, Peter T. Reid, Lynne E. Krause, Lutz Hussey, Damian J. Watson, David I. Lord, Reginald V. Nancarrow, Derek Phillips, Wayne A. Gotley, David Smithers, B. Mark Whiteman, David C. Hayward, Nicholas K. Campbell, Peter J. Pearson, John V. Grimmond, Sean M. Barbour, Andrew P. Nat Commun Article Oesophageal adenocarcinoma (EAC) incidence is rapidly increasing in Western countries. A better understanding of EAC underpins efforts to improve early detection and treatment outcomes. While large EAC exome sequencing efforts to date have found recurrent loss-of-function mutations, oncogenic driving events have been underrepresented. Here we use a combination of whole-genome sequencing (WGS) and single-nucleotide polymorphism-array profiling to show that genomic catastrophes are frequent in EAC, with almost a third (32%, n = 40/123) undergoing chromothriptic events. WGS of 22 EAC cases show that catastrophes may lead to oncogene amplification through chromothripsis-derived double-minute chromosome formation (MYC and MDM2) or breakage-fusion-bridge (KRAS, MDM2 and RFC3). Telomere shortening is more prominent in EACs bearing localized complex rearrangements. Mutational signature analysis also confirms that extreme genomic instability in EAC can be driven by somatic BRCA2 mutations. These findings suggest that genomic catastrophes have a significant role in the malignant transformation of EAC. 2014-10-29 /pmc/articles/PMC4596003/ /pubmed/25351503 http://dx.doi.org/10.1038/ncomms6224 Text en Reprints and permission information is available online at http://npg.nature.com/reprintsandpermissions/ This work is licensed under a Creative Commons Attribution 4.0 International License. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in the credit line; if the material is not included under the Creative Commons license, users will need to obtain permission from the license holder to reproduce the material. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/
spellingShingle Article
Nones, Katia
Waddell, Nicola
Wayte, Nicci
Patch, Ann-Marie
Bailey, Peter
Newell, Felicity
Holmes, Oliver
Fink, J. Lynn
Quinn, Michael C.J.
Tang, Yue Hang
Lampe, Guy
Quek, Kelly
Loffler, Kelly A.
Manning, Suzanne
Idrisoglu, Senel
Miller, David
Xu, Qinying
Waddell, Nick
Wilson, Peter J.
Bruxner, Timothy J.C.
Christ, Angelika N.
Harliwong, Ivon
Nourse, Craig
Nourbakhsh, Ehsan
Anderson, Matthew
Kazakoff, Stephen
Leonard, Conrad
Wood, Scott
Simpson, Peter T.
Reid, Lynne E.
Krause, Lutz
Hussey, Damian J.
Watson, David I.
Lord, Reginald V.
Nancarrow, Derek
Phillips, Wayne A.
Gotley, David
Smithers, B. Mark
Whiteman, David C.
Hayward, Nicholas K.
Campbell, Peter J.
Pearson, John V.
Grimmond, Sean M.
Barbour, Andrew P.
Genomic catastrophes frequently arise in esophageal adenocarcinoma and drive tumorigenesis
title Genomic catastrophes frequently arise in esophageal adenocarcinoma and drive tumorigenesis
title_full Genomic catastrophes frequently arise in esophageal adenocarcinoma and drive tumorigenesis
title_fullStr Genomic catastrophes frequently arise in esophageal adenocarcinoma and drive tumorigenesis
title_full_unstemmed Genomic catastrophes frequently arise in esophageal adenocarcinoma and drive tumorigenesis
title_short Genomic catastrophes frequently arise in esophageal adenocarcinoma and drive tumorigenesis
title_sort genomic catastrophes frequently arise in esophageal adenocarcinoma and drive tumorigenesis
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4596003/
https://www.ncbi.nlm.nih.gov/pubmed/25351503
http://dx.doi.org/10.1038/ncomms6224
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