Identification of subtypes of Barrett's esophagus and esophageal adenocarcinoma based on DNA methylation profiles and integration of transcriptome and genome data
Identification of subtypes of Barrett's esophagus and esophageal adenocarcinoma based on DNA methylation profiles and integration of transcriptome and genome data
BACKGROUND & AIMS: Esophageal adenocarcinomas (EACs) are heterogeneous and often preceded by Barrett's esophagus (BE). Many genomic changes have been associated with development of BE and EAC, but little is known about epigenetic alterations. We performed epigenetic analyses of BE and EAC tissues and combined these data with transcriptome and genomic data to identify mechanisms that control gene expression and genome integrity.
METHODS: In a retrospective cohort study, we collected tissue samples and clinical data from 150 BE and 285 EAC cases from the Oesophageal Cancer Classification and Molecular Stratification consortium in the United Kingdom. We analyzed methylation profiles of all BE and EAC tissues and assigned them to subgroups using non-negative matrix factorization with k-means clustering. Data from whole-genome sequencing and transcriptome studies were then incorporated; we performed integrative methylation and RNA-sequencing analyses to identify genes that were suppressed with increased methylation in promoter regions. Levels of different immune cell types were computed using single-sample gene set enrichment methods. We derived 8 organoids from 8 EAC tissues and tested their sensitivity to different drugs.
RESULTS: BE and EAC samples shared genome-wide methylation features, compared with normal tissues (esophageal, gastric, and duodenum; controls) from the same patients and grouped into 4 subtypes. Subtype 1 was characterized by DNA hypermethylation with a high mutation burden and multiple mutations in genes in cell cycle and receptor tyrosine signaling pathways. Subtype 2 was characterized by a gene expression pattern associated with metabolic processes (ATP synthesis and fatty acid oxidation) and lack methylation at specific binding sites for transcription factors; 83% of samples of this subtype were BE and 17% were EAC. The third subtype did not have changes in methylation pattern, compared with control tissue, but had a gene expression pattern that indicated immune cell infiltration; this tumor type was associated with the shortest time of patient survival. The fourth subtype was characterized by DNA hypomethylation associated with structure rearrangements, copy number alterations, with preferential amplification of CCNE1 (cells with this gene amplification have been reported to be sensitive to CDK2 inhibitors). Organoids with reduced levels of MGMT and CHFR expression were sensitive to temozolomide and taxane drugs.
CONCLUSIONS: In a comprehensive integrated analysis of methylation, transcriptome, and genome profiles of more than 400 BE and EAC tissues, along with clinical data, we identified 4 subtypes that were associated with patient outcomes and potential responses to therapy.
antitumor immune response, gene repression, prognostic factor, response to treatment
1682-1697.e1
Jammula, SriGanesh
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Katz-Summercorn, Annalise C
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Li, Xiaodun
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Linossi, Constanza
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Smyth, Elizabeth
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Killcoyne, Sarah
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Biasci, Daniele
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Subash, Vinod V
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Abbas, Sujath
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Blasko, Adrienn
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Devonshire, Ginny
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Grantham, Amber
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Wronowski, Filip
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O'Donovan, Maria
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Grehan, Nicola
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Eldridge, Matthew D
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Tavaré, Simon
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Fitzgerald, Rebecca C
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Underwood, Timothy
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Oesophageal Cancer Clinical and Molecular Stratification (OCCAMS) Consortium
May 2020
Jammula, SriGanesh
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Katz-Summercorn, Annalise C
8549e0c3-6b25-4288-a232-a01eb9531444
Li, Xiaodun
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Linossi, Constanza
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Smyth, Elizabeth
73725205-a097-431d-867e-e20c7869e4c4
Killcoyne, Sarah
87810e8d-73cc-4184-a078-19142adb4a31
Biasci, Daniele
4e6bac6c-21d7-4ce6-9014-fa4937a55263
Subash, Vinod V
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Abbas, Sujath
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Blasko, Adrienn
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Devonshire, Ginny
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Grantham, Amber
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Wronowski, Filip
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O'Donovan, Maria
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Grehan, Nicola
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Eldridge, Matthew D
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Tavaré, Simon
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Fitzgerald, Rebecca C
c41cd4b1-f4bd-4ae4-a63d-1f8a57a98291
Underwood, Timothy
8e81bf60-edd2-4b0e-8324-3068c95ea1c6
Jammula, SriGanesh, Katz-Summercorn, Annalise C, Li, Xiaodun, Linossi, Constanza, Smyth, Elizabeth, Killcoyne, Sarah, Biasci, Daniele, Subash, Vinod V, Abbas, Sujath, Blasko, Adrienn, Devonshire, Ginny, Grantham, Amber, Wronowski, Filip, O'Donovan, Maria, Grehan, Nicola, Eldridge, Matthew D, Tavaré, Simon and Fitzgerald, Rebecca C
,
Oesophageal Cancer Clinical and Molecular Stratification (OCCAMS) Consortium
(2020)
Identification of subtypes of Barrett's esophagus and esophageal adenocarcinoma based on DNA methylation profiles and integration of transcriptome and genome data.
Gastroenterology, 158 (6), .
(doi:10.1053/j.gastro.2020.01.044).
Abstract
BACKGROUND & AIMS: Esophageal adenocarcinomas (EACs) are heterogeneous and often preceded by Barrett's esophagus (BE). Many genomic changes have been associated with development of BE and EAC, but little is known about epigenetic alterations. We performed epigenetic analyses of BE and EAC tissues and combined these data with transcriptome and genomic data to identify mechanisms that control gene expression and genome integrity.
METHODS: In a retrospective cohort study, we collected tissue samples and clinical data from 150 BE and 285 EAC cases from the Oesophageal Cancer Classification and Molecular Stratification consortium in the United Kingdom. We analyzed methylation profiles of all BE and EAC tissues and assigned them to subgroups using non-negative matrix factorization with k-means clustering. Data from whole-genome sequencing and transcriptome studies were then incorporated; we performed integrative methylation and RNA-sequencing analyses to identify genes that were suppressed with increased methylation in promoter regions. Levels of different immune cell types were computed using single-sample gene set enrichment methods. We derived 8 organoids from 8 EAC tissues and tested their sensitivity to different drugs.
RESULTS: BE and EAC samples shared genome-wide methylation features, compared with normal tissues (esophageal, gastric, and duodenum; controls) from the same patients and grouped into 4 subtypes. Subtype 1 was characterized by DNA hypermethylation with a high mutation burden and multiple mutations in genes in cell cycle and receptor tyrosine signaling pathways. Subtype 2 was characterized by a gene expression pattern associated with metabolic processes (ATP synthesis and fatty acid oxidation) and lack methylation at specific binding sites for transcription factors; 83% of samples of this subtype were BE and 17% were EAC. The third subtype did not have changes in methylation pattern, compared with control tissue, but had a gene expression pattern that indicated immune cell infiltration; this tumor type was associated with the shortest time of patient survival. The fourth subtype was characterized by DNA hypomethylation associated with structure rearrangements, copy number alterations, with preferential amplification of CCNE1 (cells with this gene amplification have been reported to be sensitive to CDK2 inhibitors). Organoids with reduced levels of MGMT and CHFR expression were sensitive to temozolomide and taxane drugs.
CONCLUSIONS: In a comprehensive integrated analysis of methylation, transcriptome, and genome profiles of more than 400 BE and EAC tissues, along with clinical data, we identified 4 subtypes that were associated with patient outcomes and potential responses to therapy.
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More information
Accepted/In Press date: 29 January 2020
e-pub ahead of print date: 4 February 2020
Published date: May 2020
Additional Information:
Funding Information:
OCCAMS was funded by a Programme Grant from Cancer Research UK (RG81771/84119), and the laboratory of RCF is funded by a Core Programme Grant from the Medical Research Council (RG84369). We thank the Human Research Tissue Bank, which is supported by the UK National Institute for Health Research (NIHR) Cambridge Biomedical Research Centre, from Addenbrooke’s Hospital. Additional infrastructure support was provided from the Cancer Research UK–funded Experimental Cancer Medicine Centre.
Publisher Copyright:
© 2020 AGA Institute
Keywords:
antitumor immune response, gene repression, prognostic factor, response to treatment
Identifiers
Local EPrints ID: 441229
URI: http://eprints.soton.ac.uk/id/eprint/441229
ISSN: 0016-5085
PURE UUID: 4c3940da-13de-44e8-8f72-f16b92476f1b
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Date deposited: 05 Jun 2020 16:31
Last modified: 17 Mar 2024 05:35
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Contributors
Author:
SriGanesh Jammula
Author:
Annalise C Katz-Summercorn
Author:
Xiaodun Li
Author:
Constanza Linossi
Author:
Elizabeth Smyth
Author:
Sarah Killcoyne
Author:
Daniele Biasci
Author:
Vinod V Subash
Author:
Sujath Abbas
Author:
Adrienn Blasko
Author:
Ginny Devonshire
Author:
Amber Grantham
Author:
Filip Wronowski
Author:
Maria O'Donovan
Author:
Nicola Grehan
Author:
Matthew D Eldridge
Author:
Simon Tavaré
Author:
Rebecca C Fitzgerald
Corporate Author: Oesophageal Cancer Clinical and Molecular Stratification (OCCAMS) Consortium
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