Large-scale identification of coregulated enhancer networks in the adult human brain

M.W. Vermunt; P. Reinink; J. Korving; E. de Bruijn; P.M. Creyghton; O. Basak; G. Geeven; P.W. Toonen; N. Lansu; C. Meunier; S. van Heesch; H.C. Clevers; W.L. de Laat; E. Cuppen; M.P. Creyghton

doi:10.1016/j.celrep.2014.09.023

Large-scale identification of coregulated enhancer networks in the adult human brain

M.W. Vermunt, P. Reinink, J. Korving, E. de Bruijn, P.M. Creyghton, O. Basak, G. Geeven, P.W. Toonen, N. Lansu, C. Meunier, S. van Heesch, H.C. Clevers, W.L. de Laat, E. Cuppen, M.P. Creyghton

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Understanding the complexity of the human brain and its functional diversity remain a major challenge. Distinct anatomical regions are involved in an array of processes, including organismal homeostasis, cognitive functions, and susceptibility to neurological pathologies, many of which define our species. Distal enhancers have emerged as key regulatory elements that acquire histone modifications in a cell- and species-specific manner, thus enforcing specific gene expression programs. Here, we survey the epigenomic landscape of promoters and cis-regulatory elements in 136 regions of the adult human brain. We identify a total of 83,553 promoter-distal H3K27ac-enriched regions showing global characteristics of brain enhancers. We use coregulation of enhancer elements across many distinct regions of the brain to uncover functionally distinct networks at high resolution and link these networks to specific neuroglial functions. Furthermore, we use these data to understand the relevance of noncoding genomic variations previously linked to Parkinson's disease incidence.

Original language	English
Pages (from-to)	767-779
Number of pages	13
Journal	Cell Reports [E]
Volume	9
Issue number	2
DOIs	https://doi.org/10.1016/j.celrep.2014.09.023
Publication status	Published - 2014

Keywords

Brain
Enhancer Elements, Genetic
Epigenesis, Genetic
Gene Regulatory Networks
Genome, Human
Histones
Humans
Organ Specificity
Parkinson Disease

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Vermunt, M. W., Reinink, P., Korving, J., de Bruijn, E., Creyghton, P. M., Basak, O., Geeven, G., Toonen, P. W., Lansu, N., Meunier, C., van Heesch, S., Clevers, H. C., de Laat, W. L., Cuppen, E., & Creyghton, M. P. (2014). Large-scale identification of coregulated enhancer networks in the adult human brain. Cell Reports [E], 9(2), 767-779. https://doi.org/10.1016/j.celrep.2014.09.023

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abstract = "Understanding the complexity of the human brain and its functional diversity remain a major challenge. Distinct anatomical regions are involved in an array of processes, including organismal homeostasis, cognitive functions, and susceptibility to neurological pathologies, many of which define our species. Distal enhancers have emerged as key regulatory elements that acquire histone modifications in a cell- and species-specific manner, thus enforcing specific gene expression programs. Here, we survey the epigenomic landscape of promoters and cis-regulatory elements in 136 regions of the adult human brain. We identify a total of 83,553 promoter-distal H3K27ac-enriched regions showing global characteristics of brain enhancers. We use coregulation of enhancer elements across many distinct regions of the brain to uncover functionally distinct networks at high resolution and link these networks to specific neuroglial functions. Furthermore, we use these data to understand the relevance of noncoding genomic variations previously linked to Parkinson's disease incidence.",

keywords = "Brain, Enhancer Elements, Genetic, Epigenesis, Genetic, Gene Regulatory Networks, Genome, Human, Histones, Humans, Organ Specificity, Parkinson Disease",

author = "M.W. Vermunt and P. Reinink and J. Korving and {de Bruijn}, E. and P.M. Creyghton and O. Basak and G. Geeven and P.W. Toonen and N. Lansu and C. Meunier and {van Heesch}, S. and H.C. Clevers and {de Laat}, W.L. and E. Cuppen and M.P. Creyghton",

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Vermunt, MW, Reinink, P, Korving, J, de Bruijn, E, Creyghton, PM, Basak, O, Geeven, G, Toonen, PW, Lansu, N, Meunier, C, van Heesch, S, Clevers, HC, de Laat, WL , Cuppen, E & Creyghton, MP 2014, 'Large-scale identification of coregulated enhancer networks in the adult human brain', Cell Reports [E], vol. 9, no. 2, pp. 767-779. https://doi.org/10.1016/j.celrep.2014.09.023

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T1 - Large-scale identification of coregulated enhancer networks in the adult human brain

AU - Vermunt, M.W.

AU - Reinink, P.

AU - Korving, J.

AU - de Bruijn, E.

AU - Creyghton, P.M.

AU - Basak, O.

AU - Geeven, G.

AU - Toonen, P.W.

AU - Lansu, N.

AU - Meunier, C.

AU - van Heesch, S.

AU - Clevers, H.C.

AU - de Laat, W.L.

AU - Cuppen, E.

AU - Creyghton, M.P.

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PY - 2014

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AB - Understanding the complexity of the human brain and its functional diversity remain a major challenge. Distinct anatomical regions are involved in an array of processes, including organismal homeostasis, cognitive functions, and susceptibility to neurological pathologies, many of which define our species. Distal enhancers have emerged as key regulatory elements that acquire histone modifications in a cell- and species-specific manner, thus enforcing specific gene expression programs. Here, we survey the epigenomic landscape of promoters and cis-regulatory elements in 136 regions of the adult human brain. We identify a total of 83,553 promoter-distal H3K27ac-enriched regions showing global characteristics of brain enhancers. We use coregulation of enhancer elements across many distinct regions of the brain to uncover functionally distinct networks at high resolution and link these networks to specific neuroglial functions. Furthermore, we use these data to understand the relevance of noncoding genomic variations previously linked to Parkinson's disease incidence.

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KW - Epigenesis, Genetic

KW - Gene Regulatory Networks

KW - Genome, Human

KW - Histones

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KW - Organ Specificity

KW - Parkinson Disease

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DO - 10.1016/j.celrep.2014.09.023

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EP - 779

JO - Cell Reports [E]

JF - Cell Reports [E]

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ER -

Large-scale identification of coregulated enhancer networks in the adult human brain

Abstract

Keywords

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