Conserved role of intragenic DNA methylation in regulating alternative promoters

Alika K. Maunakea; Raman P. Nagarajan; Mikhail Bilenky; Tracy J. Ballinger; Cletus Dsouza; Shaun D. Fouse; Brett E. Johnson; Chibo Hong; Cydney Nielsen; Yongjun Zhao; Gustavo Turecki; Allen Delaney; Richard Varhol; Nina Thiessen; Ksenya Shchors; Vivi M. Heine; David H. Rowitch; Xiaoyun Xing; Chris Fiore; Maximiliaan Schillebeeckx; Steven J.M. Jones; David Haussler; Marco A. Marra; Martin Hirst; Ting Wang; Joseph F. Costello

doi:10.1038/nature09165

Conserved role of intragenic DNA methylation in regulating alternative promoters

Alika K. Maunakea, Raman P. Nagarajan, Mikhail Bilenky, Tracy J. Ballinger, Cletus Dsouza, Shaun D. Fouse, Brett E. Johnson, Chibo Hong, Cydney Nielsen, Yongjun Zhao, Gustavo Turecki, Allen Delaney, Richard Varhol, Nina Thiessen, Ksenya Shchors, Vivi M. Heine, David H. Rowitch, Xiaoyun Xing, Chris Fiore, Maximiliaan SchillebeeckxSteven J.M. Jones, David Haussler, Marco A. Marra, Martin Hirst, Ting Wang, Joseph F. Costello

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Abstract

Although it is known that the methylation of DNA in 5′ promoters suppresses gene expression, the role of DNA methylation in gene bodies is unclear. In mammals, tissue-and cell type-specific methylation is present in a small percentage of 5′ CpG island (CGI) promoters, whereas a far greater proportion occurs across gene bodies, coinciding with highly conserved sequences. Tissue-specific intragenic methylation might reduce, or, paradoxically, enhance transcription elongation efficiency. Capped analysis of gene expression (CAGE) experiments also indicate that transcription commonly initiates within and between genes. To investigate the role of intragenic methylation, we generated a map of DNA methylation from the human brain encompassing 24.7 million of the 28 million CpG sites. From the dense, high-resolution coverage of CpG islands, the majority of methylated CpG islands were shown to be in intragenic and intergenic regions, whereas less than 3% of CpG islands in 5′ promoters were methylated. The CpG islands in all three locations overlapped with RNA markers of transcription initiation, and unmethylated CpG islands also overlapped significantly with trimethylation of H3K4, a histone modification enriched at promoters. The general and CpG-island-specific patterns of methylation are conserved in mouse tissues. An in-depth investigation of the human SHANK3 locus and its mouse homologue demonstrated that this tissue-specific DNA methylation regulates intragenic promoter activity in vitro and in vivo. These methylation-regulated, alternative transcripts are expressed in a tissue-and cell type-specific manner, and are expressed differentially within a single cell type from distinct brain regions. These results support a major role for intragenic methylation in regulating cell context-specific alternative promoters in gene bodies.

Original language	English (US)
Pages (from-to)	253-257
Number of pages	5
Journal	Nature
Volume	466
Issue number	7303
DOIs	https://doi.org/10.1038/nature09165
State	Published - Jul 8 2010
Externally published	Yes

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Maunakea, A. K., Nagarajan, R. P., Bilenky, M., Ballinger, T. J., Dsouza, C., Fouse, S. D., Johnson, B. E., Hong, C., Nielsen, C., Zhao, Y., Turecki, G., Delaney, A., Varhol, R., Thiessen, N., Shchors, K., Heine, V. M., Rowitch, D. H., Xing, X., Fiore, C., ... Costello, J. F. (2010). Conserved role of intragenic DNA methylation in regulating alternative promoters. Nature, 466(7303), 253-257. https://doi.org/10.1038/nature09165

Maunakea, AK, Nagarajan, RP, Bilenky, M, Ballinger, TJ, Dsouza, C, Fouse, SD, Johnson, BE, Hong, C, Nielsen, C, Zhao, Y, Turecki, G, Delaney, A, Varhol, R, Thiessen, N, Shchors, K, Heine, VM, Rowitch, DH, Xing, X, Fiore, C, Schillebeeckx, M, Jones, SJM, Haussler, D, Marra, MA, Hirst, M, Wang, T & Costello, JF 2010, 'Conserved role of intragenic DNA methylation in regulating alternative promoters', Nature, vol. 466, no. 7303, pp. 253-257. https://doi.org/10.1038/nature09165

@article{5f42427893674cc09ffb9e957b3f34a3,

title = "Conserved role of intragenic DNA methylation in regulating alternative promoters",

abstract = "Although it is known that the methylation of DNA in 5′ promoters suppresses gene expression, the role of DNA methylation in gene bodies is unclear. In mammals, tissue-and cell type-specific methylation is present in a small percentage of 5′ CpG island (CGI) promoters, whereas a far greater proportion occurs across gene bodies, coinciding with highly conserved sequences. Tissue-specific intragenic methylation might reduce, or, paradoxically, enhance transcription elongation efficiency. Capped analysis of gene expression (CAGE) experiments also indicate that transcription commonly initiates within and between genes. To investigate the role of intragenic methylation, we generated a map of DNA methylation from the human brain encompassing 24.7 million of the 28 million CpG sites. From the dense, high-resolution coverage of CpG islands, the majority of methylated CpG islands were shown to be in intragenic and intergenic regions, whereas less than 3% of CpG islands in 5′ promoters were methylated. The CpG islands in all three locations overlapped with RNA markers of transcription initiation, and unmethylated CpG islands also overlapped significantly with trimethylation of H3K4, a histone modification enriched at promoters. The general and CpG-island-specific patterns of methylation are conserved in mouse tissues. An in-depth investigation of the human SHANK3 locus and its mouse homologue demonstrated that this tissue-specific DNA methylation regulates intragenic promoter activity in vitro and in vivo. These methylation-regulated, alternative transcripts are expressed in a tissue-and cell type-specific manner, and are expressed differentially within a single cell type from distinct brain regions. These results support a major role for intragenic methylation in regulating cell context-specific alternative promoters in gene bodies.",

author = "Maunakea, {Alika K.} and Nagarajan, {Raman P.} and Mikhail Bilenky and Ballinger, {Tracy J.} and Cletus Dsouza and Fouse, {Shaun D.} and Johnson, {Brett E.} and Chibo Hong and Cydney Nielsen and Yongjun Zhao and Gustavo Turecki and Allen Delaney and Richard Varhol and Nina Thiessen and Ksenya Shchors and Heine, {Vivi M.} and Rowitch, {David H.} and Xiaoyun Xing and Chris Fiore and Maximiliaan Schillebeeckx and Jones, {Steven J.M.} and David Haussler and Marra, {Marco A.} and Martin Hirst and Ting Wang and Costello, {Joseph F.}",

note = "Funding Information: Acknowledgements We thank S. Vandenberg for technical assistance and The Pleiades Promoter Project and their funders Genome Canada, Genome British Columbia, GlaxoSmithKline R&D Ltd, BC Mental Health and Addiction Services, Child & Family Research Institute, UBC Institute of Mental Health, and the UBC Office of the Vice President Research. This work was supported in part by an NIH NRSA-F31 fellowship to A.K.M. and an NIH NRSA-F32 fellowship to R.P.N., a grant from the National Brain Tumor Society and Goldhirsh Foundation to J.F.C., and by the British Columbia Cancer Foundation. T.W. was a Helen Hay Whitney Fellow and M.A.M. is a Terry Fox Young Investigator and a Michael Smith Senior Research Scholar.",

year = "2010",

month = jul,

day = "8",

doi = "10.1038/nature09165",

language = "English (US)",

volume = "466",

pages = "253--257",

journal = "Nature",

issn = "0028-0836",

publisher = "Nature Publishing Group",

number = "7303",

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TY - JOUR

T1 - Conserved role of intragenic DNA methylation in regulating alternative promoters

AU - Maunakea, Alika K.

AU - Nagarajan, Raman P.

AU - Bilenky, Mikhail

AU - Ballinger, Tracy J.

AU - Dsouza, Cletus

AU - Fouse, Shaun D.

AU - Johnson, Brett E.

AU - Hong, Chibo

AU - Nielsen, Cydney

AU - Zhao, Yongjun

AU - Turecki, Gustavo

AU - Delaney, Allen

AU - Varhol, Richard

AU - Thiessen, Nina

AU - Shchors, Ksenya

AU - Heine, Vivi M.

AU - Rowitch, David H.

AU - Xing, Xiaoyun

AU - Fiore, Chris

AU - Schillebeeckx, Maximiliaan

AU - Jones, Steven J.M.

AU - Haussler, David

AU - Marra, Marco A.

AU - Hirst, Martin

AU - Wang, Ting

AU - Costello, Joseph F.

N1 - Funding Information: Acknowledgements We thank S. Vandenberg for technical assistance and The Pleiades Promoter Project and their funders Genome Canada, Genome British Columbia, GlaxoSmithKline R&D Ltd, BC Mental Health and Addiction Services, Child & Family Research Institute, UBC Institute of Mental Health, and the UBC Office of the Vice President Research. This work was supported in part by an NIH NRSA-F31 fellowship to A.K.M. and an NIH NRSA-F32 fellowship to R.P.N., a grant from the National Brain Tumor Society and Goldhirsh Foundation to J.F.C., and by the British Columbia Cancer Foundation. T.W. was a Helen Hay Whitney Fellow and M.A.M. is a Terry Fox Young Investigator and a Michael Smith Senior Research Scholar.

PY - 2010/7/8

Y1 - 2010/7/8

N2 - Although it is known that the methylation of DNA in 5′ promoters suppresses gene expression, the role of DNA methylation in gene bodies is unclear. In mammals, tissue-and cell type-specific methylation is present in a small percentage of 5′ CpG island (CGI) promoters, whereas a far greater proportion occurs across gene bodies, coinciding with highly conserved sequences. Tissue-specific intragenic methylation might reduce, or, paradoxically, enhance transcription elongation efficiency. Capped analysis of gene expression (CAGE) experiments also indicate that transcription commonly initiates within and between genes. To investigate the role of intragenic methylation, we generated a map of DNA methylation from the human brain encompassing 24.7 million of the 28 million CpG sites. From the dense, high-resolution coverage of CpG islands, the majority of methylated CpG islands were shown to be in intragenic and intergenic regions, whereas less than 3% of CpG islands in 5′ promoters were methylated. The CpG islands in all three locations overlapped with RNA markers of transcription initiation, and unmethylated CpG islands also overlapped significantly with trimethylation of H3K4, a histone modification enriched at promoters. The general and CpG-island-specific patterns of methylation are conserved in mouse tissues. An in-depth investigation of the human SHANK3 locus and its mouse homologue demonstrated that this tissue-specific DNA methylation regulates intragenic promoter activity in vitro and in vivo. These methylation-regulated, alternative transcripts are expressed in a tissue-and cell type-specific manner, and are expressed differentially within a single cell type from distinct brain regions. These results support a major role for intragenic methylation in regulating cell context-specific alternative promoters in gene bodies.

AB - Although it is known that the methylation of DNA in 5′ promoters suppresses gene expression, the role of DNA methylation in gene bodies is unclear. In mammals, tissue-and cell type-specific methylation is present in a small percentage of 5′ CpG island (CGI) promoters, whereas a far greater proportion occurs across gene bodies, coinciding with highly conserved sequences. Tissue-specific intragenic methylation might reduce, or, paradoxically, enhance transcription elongation efficiency. Capped analysis of gene expression (CAGE) experiments also indicate that transcription commonly initiates within and between genes. To investigate the role of intragenic methylation, we generated a map of DNA methylation from the human brain encompassing 24.7 million of the 28 million CpG sites. From the dense, high-resolution coverage of CpG islands, the majority of methylated CpG islands were shown to be in intragenic and intergenic regions, whereas less than 3% of CpG islands in 5′ promoters were methylated. The CpG islands in all three locations overlapped with RNA markers of transcription initiation, and unmethylated CpG islands also overlapped significantly with trimethylation of H3K4, a histone modification enriched at promoters. The general and CpG-island-specific patterns of methylation are conserved in mouse tissues. An in-depth investigation of the human SHANK3 locus and its mouse homologue demonstrated that this tissue-specific DNA methylation regulates intragenic promoter activity in vitro and in vivo. These methylation-regulated, alternative transcripts are expressed in a tissue-and cell type-specific manner, and are expressed differentially within a single cell type from distinct brain regions. These results support a major role for intragenic methylation in regulating cell context-specific alternative promoters in gene bodies.

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Conserved role of intragenic DNA methylation in regulating alternative promoters

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