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Transcriptional activation by the thyroid hormone receptor through ligand-dependent receptor recruitment and chromatin remodelling

Author

Listed:
  • Lars Grøntved

    (Laboratory of Receptor Biology and Gene Expression, Center for Cancer Research (CCR), National Cancer Institute (NCI), National Institutes of Health (NIH)
    University of Southern Denmark)

  • Joshua J. Waterfall

    (Genetics Branch, CCR, NCI, NIH)

  • Dong Wook Kim

    (Laboratory of Molecular Biology, CCR, NCI, NIH, Building 37/NIH, Bethesda, Maryland 20892, USA)

  • Songjoon Baek

    (Laboratory of Receptor Biology and Gene Expression, Center for Cancer Research (CCR), National Cancer Institute (NCI), National Institutes of Health (NIH))

  • Myong-Hee Sung

    (Laboratory of Receptor Biology and Gene Expression, Center for Cancer Research (CCR), National Cancer Institute (NCI), National Institutes of Health (NIH))

  • Li Zhao

    (Laboratory of Molecular Biology, CCR, NCI, NIH, Building 37/NIH, Bethesda, Maryland 20892, USA)

  • Jeong Won Park

    (Laboratory of Molecular Biology, CCR, NCI, NIH, Building 37/NIH, Bethesda, Maryland 20892, USA)

  • Ronni Nielsen

    (University of Southern Denmark)

  • Robert L. Walker

    (Genetics Branch, CCR, NCI, NIH)

  • Yuelin J. Zhu

    (Genetics Branch, CCR, NCI, NIH)

  • Paul S. Meltzer

    (Genetics Branch, CCR, NCI, NIH)

  • Gordon L. Hager

    (Laboratory of Receptor Biology and Gene Expression, Center for Cancer Research (CCR), National Cancer Institute (NCI), National Institutes of Health (NIH))

  • Sheue-yann Cheng

    (Laboratory of Molecular Biology, CCR, NCI, NIH, Building 37/NIH, Bethesda, Maryland 20892, USA)

Abstract

A bimodal switch model is widely used to describe transcriptional regulation by the thyroid hormone receptor (TR). In this model, the unliganded TR forms stable, chromatin-bound complexes with transcriptional co-repressors to repress transcription. Binding of hormone dissociates co-repressors and facilitates recruitment of co-activators to activate transcription. Here we show that in addition to hormone-independent TR occupancy, ChIP-seq against endogenous TR in mouse liver tissue demonstrates considerable hormone-induced TR recruitment to chromatin associated with chromatin remodelling and activated gene transcription. Genome-wide footprinting analysis using DNase-seq provides little evidence for TR footprints both in the absence and presence of hormone, suggesting that unliganded TR engagement with repressive complexes on chromatin is, similar to activating receptor complexes, a highly dynamic process. This dynamic and ligand-dependent interaction with chromatin is likely shared by all steroid hormone receptors regardless of their capacity to repress transcription in the absence of ligand.

Suggested Citation

  • Lars Grøntved & Joshua J. Waterfall & Dong Wook Kim & Songjoon Baek & Myong-Hee Sung & Li Zhao & Jeong Won Park & Ronni Nielsen & Robert L. Walker & Yuelin J. Zhu & Paul S. Meltzer & Gordon L. Hager &, 2015. "Transcriptional activation by the thyroid hormone receptor through ligand-dependent receptor recruitment and chromatin remodelling," Nature Communications, Nature, vol. 6(1), pages 1-11, November.
    • Handle: RePEc:nat:natcom:v:6:y:2015:i:1:d:10.1038_ncomms8048
    DOI: 10.1038/ncomms8048
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    Cited by:

    1. Xin Pan & Lan Wang & Juntang Yang & Yingge Li & Min Xu & Chenxi Liang & Lulu Liu & Zhongzheng Li & Cong Xia & Jiaojiao Pang & Mengyuan Wang & Meng Li & Saiya Guo & Peishuo Yan & Chen Ding & Ivan O. Ro, 2024. "TRβ activation confers AT2-to-AT1 cell differentiation and anti-fibrosis during lung repair via KLF2 and CEBPA," Nature Communications, Nature, vol. 15(1), pages 1-19, December.
    2. Ying Yan & Zhoumin Niu & Chao Sun & Peng Li & Siyi Shen & Shengnan Liu & Yuting Wu & Chuyu Yun & Tingying Jiao & Sheng Jia & Yuying Li & Zhong-Ze Fang & Lin Zhao & Jiqiu Wang & Cen Xie & Changtao Jian, 2022. "Hepatic thyroid hormone signalling modulates glucose homeostasis through the regulation of GLP-1 production via bile acid-mediated FXR antagonism," Nature Communications, Nature, vol. 13(1), pages 1-16, December.

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