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Mechanisms governing the pioneering and redistribution capabilities of the non-classical pioneer PU.1

Author

Listed:
  • Julia Minderjahn

    (University Hospital Regensburg)

  • Andreas Schmidt

    (Ludwig-Maximilians-Universität München)

  • Andreas Fuchs

    (University of Regensburg)

  • Rudolf Schill

    (University of Regensburg)

  • Johanna Raithel

    (University Hospital Regensburg)

  • Magda Babina

    (Charité Universitätsmedizin Berlin)

  • Christian Schmidl

    (University Regensburg and University Medical Center Regensburg)

  • Claudia Gebhard

    (University Hospital Regensburg
    University Regensburg and University Medical Center Regensburg)

  • Sandra Schmidhofer

    (University Hospital Regensburg
    AstraZeneca)

  • Karina Mendes

    (University Hospital Regensburg)

  • Anna Ratermann

    (University Hospital Regensburg
    Rentschler Biopharma SE)

  • Dagmar Glatz

    (University Hospital Regensburg
    Maisonneuve-Rosemont Hospital Research Centre)

  • Margit Nützel

    (University Hospital Regensburg)

  • Matthias Edinger

    (University Hospital Regensburg
    University Regensburg and University Medical Center Regensburg)

  • Petra Hoffmann

    (University Hospital Regensburg
    University Regensburg and University Medical Center Regensburg)

  • Rainer Spang

    (University of Regensburg)

  • Gernot Längst

    (University of Regensburg)

  • Axel Imhof

    (Ludwig-Maximilians-Universität München)

  • Michael Rehli

    (University Hospital Regensburg
    University Regensburg and University Medical Center Regensburg)

Abstract

Establishing gene regulatory networks during differentiation or reprogramming requires master or pioneer transcription factors (TFs) such as PU.1, a prototype master TF of hematopoietic lineage differentiation. To systematically determine molecular features that control its activity, here we analyze DNA-binding in vitro and genome-wide in vivo across different cell types with native or ectopic PU.1 expression. Although PU.1, in contrast to classical pioneer factors, is unable to access nucleosomal target sites in vitro, ectopic induction of PU.1 leads to the extensive remodeling of chromatin and redistribution of partner TFs. De novo chromatin access, stable binding, and redistribution of partner TFs both require PU.1’s N-terminal acidic activation domain and its ability to recruit SWI/SNF remodeling complexes, suggesting that the latter may collect and distribute co-associated TFs in conjunction with the non-classical pioneer TF PU.1.

Suggested Citation

  • Julia Minderjahn & Andreas Schmidt & Andreas Fuchs & Rudolf Schill & Johanna Raithel & Magda Babina & Christian Schmidl & Claudia Gebhard & Sandra Schmidhofer & Karina Mendes & Anna Ratermann & Dagmar, 2020. "Mechanisms governing the pioneering and redistribution capabilities of the non-classical pioneer PU.1," Nature Communications, Nature, vol. 11(1), pages 1-16, December.
    • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-019-13960-2
    DOI: 10.1038/s41467-019-13960-2
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    Cited by:

    1. Byungwook Kim & Luke Child Dabin & Mason Douglas Tate & Hande Karahan & Ahmad Daniel Sharify & Dominic J. Acri & Md Mamun Al-Amin & Stéphanie Philtjens & Daniel Curtis Smith & H. R. Sagara Wijeratne &, 2024. "Effects of SPI1-mediated transcriptome remodeling on Alzheimer’s disease-related phenotypes in mouse models of Aβ amyloidosis," Nature Communications, Nature, vol. 15(1), pages 1-17, December.
    2. Julia Minderjahn & Alexander Fischer & Konstantin Maier & Karina Mendes & Margit Nuetzel & Johanna Raithel & Hanna Stanewsky & Ute Ackermann & Robert Månsson & Claudia Gebhard & Michael Rehli, 2022. "Postmitotic differentiation of human monocytes requires cohesin-structured chromatin," Nature Communications, Nature, vol. 13(1), pages 1-19, December.

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