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EGR1 recruits TET1 to shape the brain methylome during development and upon neuronal activity

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  • Zhixiong Sun

    (Fralin Life Sciences Institute at Virginia Tech
    Virginia Tech)

  • Xiguang Xu

    (Fralin Life Sciences Institute at Virginia Tech
    Virginia Tech)

  • Jianlin He

    (Fralin Life Sciences Institute at Virginia Tech)

  • Alexander Murray

    (Fralin Life Sciences Institute at Virginia Tech
    Virginia-Maryland College of Veterinary Medicine)

  • Ming-an Sun

    (Fralin Life Sciences Institute at Virginia Tech)

  • Xiaoran Wei

    (Fralin Life Sciences Institute at Virginia Tech
    Virginia-Maryland College of Veterinary Medicine)

  • Xia Wang

    (Virginia-Maryland College of Veterinary Medicine)

  • Emmarose McCoig

    (Fralin Life Sciences Institute at Virginia Tech
    Virginia Tech)

  • Evan Xie

    (Fralin Life Sciences Institute at Virginia Tech
    Virginia-Maryland College of Veterinary Medicine)

  • Xi Jiang

    (Zhejiang University School of Medicine
    Zhejiang University & Zhejiang Engineering Laboratory for Stem Cell and Immunotherapy)

  • Liwu Li

    (Virginia Tech)

  • Jinsong Zhu

    (Virginia Tech)

  • Jianjun Chen

    (Beckman Research Institute of City of Hope)

  • Alexei Morozov

    (Virginia Tech Carilion School of Medicine
    Virginia Tech Carilion Research Institute
    School of Biomedical Engineering and Sciences)

  • Alicia M. Pickrell

    (Virginia Tech)

  • Michelle H. Theus

    (Virginia-Maryland College of Veterinary Medicine
    Virginia Tech)

  • Hehuang Xie

    (Fralin Life Sciences Institute at Virginia Tech
    Virginia Tech
    Virginia-Maryland College of Veterinary Medicine
    Virginia Tech)

Abstract

Life experience can leave lasting marks, such as epigenetic changes, in the brain. How life experience is translated into storable epigenetic information remains largely unknown. With unbiased data-driven approaches, we predicted that Egr1, a transcription factor important for memory formation, plays an essential role in brain epigenetic programming. We performed EGR1 ChIP-seq and validated thousands of EGR1 binding sites with methylation patterns established during postnatal brain development. More specifically, these EGR1 binding sites become hypomethylated in mature neurons but remain heavily methylated in glia. We further demonstrated that EGR1 recruits a DNA demethylase TET1 to remove the methylation marks and activate downstream genes. The frontal cortices from the knockout mice lacking Egr1 or Tet1 share strikingly similar profiles in both gene expression and DNA methylation. In summary, our study reveals EGR1 programs the brain methylome together with TET1 providing new insight into how life experience may shape the brain methylome.

Suggested Citation

  • Zhixiong Sun & Xiguang Xu & Jianlin He & Alexander Murray & Ming-an Sun & Xiaoran Wei & Xia Wang & Emmarose McCoig & Evan Xie & Xi Jiang & Liwu Li & Jinsong Zhu & Jianjun Chen & Alexei Morozov & Alici, 2019. "EGR1 recruits TET1 to shape the brain methylome during development and upon neuronal activity," Nature Communications, Nature, vol. 10(1), pages 1-12, December.
  • Handle: RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-11905-3
    DOI: 10.1038/s41467-019-11905-3
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    Cited by:

    1. Liang Wang & Jingyi Du & Qilu Liu & Dongshuang Wang & Wenhan Wang & Ming Lei & Keyi Li & Yiwei Li & Aijun Hao & Yuanhua Sang & Fan Yi & Wenjuan Zhou & Hong Liu & Chuanbin Mao & Jichuan Qiu, 2024. "Wrapping stem cells with wireless electrical nanopatches for traumatic brain injury therapy," Nature Communications, Nature, vol. 15(1), pages 1-16, December.

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