DNA methylation of intragenic CpG islands depends on their transcriptional activity during differentiation and disease
DNA methylation of intragenic CpG islands depends on their transcriptional activity during differentiation and disease
The human genome contains ∼30,000 CpG islands (CGIs). While CGIs associated with promoters nearly always remain unmethylated, many of the ∼9,000 CGIs lying within gene bodies become methylated during development and differentiation. Both promoter and intragenic CGIs may also become abnormally methylated as a result of genome rearrangements and in malignancy. The epigenetic mechanisms by which some CGIs become methylated but others, in the same cell, remain unmethylated in these situations are poorly understood. Analyzing specific loci and using a genome-wide analysis, we show that transcription running across CGIs, associated with specific chromatin modifications, is required for DNA methyltransferase 3B (DNMT3B)-mediated DNA methylation of many naturally occurring intragenic CGIs. Importantly, we also show that a subgroup of intragenic CGIs is not sensitive to this process of transcription-mediated methylation and that this correlates with their individual intrinsic capacity to initiate transcription in vivo. We propose a general model of how transcription could act as a primary determinant of the patterns of CGI methylation in normal development and differentiation, and in human disease.
Journal Article
E7526-E7535
Jeziorska, Danuta M.
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Murray, Robert J.S.
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De Gobbi, Marco
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Gaentzsch, Ricarda
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Garrick, David
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Ayyub, Helena
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Chen, Taiping
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Li, En
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Telenius, Jelena
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Lynch, Magnus
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Graham, Bryony
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Smith, Andrew J.H.
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Lund, Jonathan N.
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Hughes, Jim R.
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Higgs, Douglas R.
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Tufarelli, Cristina
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5 September 2017
Jeziorska, Danuta M.
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Murray, Robert J.S.
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De Gobbi, Marco
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Gaentzsch, Ricarda
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Garrick, David
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Ayyub, Helena
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Chen, Taiping
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Li, En
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Telenius, Jelena
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Lynch, Magnus
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Graham, Bryony
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Smith, Andrew J.H.
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Lund, Jonathan N.
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Hughes, Jim R.
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Higgs, Douglas R.
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Tufarelli, Cristina
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Jeziorska, Danuta M., Murray, Robert J.S., De Gobbi, Marco, Gaentzsch, Ricarda, Garrick, David, Ayyub, Helena, Chen, Taiping, Li, En, Telenius, Jelena, Lynch, Magnus, Graham, Bryony, Smith, Andrew J.H., Lund, Jonathan N., Hughes, Jim R., Higgs, Douglas R. and Tufarelli, Cristina
(2017)
DNA methylation of intragenic CpG islands depends on their transcriptional activity during differentiation and disease.
Proceedings of the National Academy of Sciences of the United States of America, 114 (36), .
(doi:10.1073/pnas.1703087114).
Abstract
The human genome contains ∼30,000 CpG islands (CGIs). While CGIs associated with promoters nearly always remain unmethylated, many of the ∼9,000 CGIs lying within gene bodies become methylated during development and differentiation. Both promoter and intragenic CGIs may also become abnormally methylated as a result of genome rearrangements and in malignancy. The epigenetic mechanisms by which some CGIs become methylated but others, in the same cell, remain unmethylated in these situations are poorly understood. Analyzing specific loci and using a genome-wide analysis, we show that transcription running across CGIs, associated with specific chromatin modifications, is required for DNA methyltransferase 3B (DNMT3B)-mediated DNA methylation of many naturally occurring intragenic CGIs. Importantly, we also show that a subgroup of intragenic CGIs is not sensitive to this process of transcription-mediated methylation and that this correlates with their individual intrinsic capacity to initiate transcription in vivo. We propose a general model of how transcription could act as a primary determinant of the patterns of CGI methylation in normal development and differentiation, and in human disease.
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E7526.full
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Accepted/In Press date: 28 July 2017
e-pub ahead of print date: 21 August 2017
Published date: 5 September 2017
Keywords:
Journal Article
Identifiers
Local EPrints ID: 414957
URI: http://eprints.soton.ac.uk/id/eprint/414957
ISSN: 0027-8424
PURE UUID: af8d336b-cc1f-41e5-a95c-c40c967042a8
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Date deposited: 18 Oct 2017 16:30
Last modified: 15 Mar 2024 16:28
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Contributors
Author:
Danuta M. Jeziorska
Author:
Robert J.S. Murray
Author:
Marco De Gobbi
Author:
Ricarda Gaentzsch
Author:
David Garrick
Author:
Helena Ayyub
Author:
Taiping Chen
Author:
En Li
Author:
Jelena Telenius
Author:
Magnus Lynch
Author:
Bryony Graham
Author:
Andrew J.H. Smith
Author:
Jonathan N. Lund
Author:
Jim R. Hughes
Author:
Douglas R. Higgs
Author:
Cristina Tufarelli
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