Identification and characterization of DNA sequences that prevent 
glucocorticoid receptor binding to nearby response elements

Telorac, Jonas; Prykhozhij, Sergey; Schöne, Stefanie; Meierhofer, David; Sauer, Sascha; Thomas-Chollier, Morgane; Meijsing, Sebastiaan H.

doi:10.1093/nar/gkw203

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Identification and characterization of DNA sequences that prevent glucocorticoid receptor binding to nearby response elements

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Telorac, Jonas
Mechanisms of Transcriptional Regulation (Sebastiaan H. Meijsing), Dept. of Computational Molecular Biology (Head: Martin Vingron), Max Planck Institute for Molecular Genetics, Max Planck Society;

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Prykhozhij, Sergey
Mechanisms of Transcriptional Regulation (Sebastiaan H. Meijsing), Dept. of Computational Molecular Biology (Head: Martin Vingron), Max Planck Institute for Molecular Genetics, Max Planck Society;
Dalhousie University, Halifax, NS B3K 6R8, Canada ;

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Schöne, Stefanie
Mechanisms of Transcriptional Regulation (Sebastiaan H. Meijsing), Dept. of Computational Molecular Biology (Head: Martin Vingron), Max Planck Institute for Molecular Genetics, Max Planck Society;

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Meierhofer, David
Mass Spectrometry (Head: David Meierhofer), Scientific Service (Head: Christoph Krukenkamp), Max Planck Institute for Molecular Genetics, Max Planck Society;

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Meijsing, Sebastiaan H.
Mechanisms of Transcriptional Regulation (Sebastiaan H. Meijsing), Dept. of Computational Molecular Biology (Head: Martin Vingron), Max Planck Institute for Molecular Genetics, Max Planck Society;

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Citation

Telorac, J., Prykhozhij, S., Schöne, S., Meierhofer, D., Sauer, S., Thomas-Chollier, M., et al. (2016). Identification and characterization of DNA sequences that prevent glucocorticoid receptor binding to nearby response elements. Nucleic Acids Research (London), 44(13), 6142-6156. doi:10.1093/nar/gkw203.

Cite as: https://hdl.handle.net/11858/00-001M-0000-002B-1364-6

Abstract

Out of the myriad of potential DNA binding sites of the glucocorticoid receptor (GR) found in the human genome, only a cell-type specific minority is actually bound, indicating that the presence of a recognition sequence alone is insufficient to specify where GR binds. Cooperative interactions with other transcription factors (TFs) are known to contribute to binding specificity. Here, we reasoned that sequence signals preventing GR recruitment to certain loci provide an alternative means to confer specificity. Motif analyses uncovered candidateNegative Regulatory Sequences(NRSs) that interfere with genomic GR binding. Subsequent functional analyses demonstrated that NRSs indeed prevent GR binding to nearby response elements. We show that NRS activity is conserved across species, found in most tissues and that they also interfere with the genomic binding of other TFs. Interestingly, the effects of NRSs appear not to be a simple consequence of changes in chromatin accessibility. Instead, we find that NRSs interact with proteins found at sub-nuclear structures called paraspeckles and that these proteins might mediate the repressive effects of NRSs. Together, our studies suggest that the joint influence of positive and negative sequence signals partition the genome into regions where GR can bind and those where it cannot.