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Simultaneous downregulation of KLF5 and Fli1 is a key feature underlying systemic sclerosis

Author

Listed:
  • Shinji Noda

    (the University of Tokyo Graduate School of Medicine)

  • Yoshihide Asano

    (the University of Tokyo Graduate School of Medicine)

  • Satoshi Nishimura

    (the University of Tokyo Graduate School of Medicine
    Translational Systems Biology and Medicine Initiative, the University of Tokyo
    Center for Molecular Medicine, Jichi Medical University)

  • Takashi Taniguchi

    (the University of Tokyo Graduate School of Medicine)

  • Katsuhito Fujiu

    (the University of Tokyo Graduate School of Medicine
    Translational Systems Biology and Medicine Initiative, the University of Tokyo)

  • Ichiro Manabe

    (the University of Tokyo Graduate School of Medicine)

  • Kouki Nakamura

    (the University of Tokyo Graduate School of Medicine)

  • Takashi Yamashita

    (the University of Tokyo Graduate School of Medicine)

  • Ryosuke Saigusa

    (the University of Tokyo Graduate School of Medicine)

  • Kaname Akamata

    (the University of Tokyo Graduate School of Medicine)

  • Takehiro Takahashi

    (the University of Tokyo Graduate School of Medicine)

  • Yohei Ichimura

    (the University of Tokyo Graduate School of Medicine)

  • Tetsuo Toyama

    (the University of Tokyo Graduate School of Medicine)

  • Daisuke Tsuruta

    (Osaka City University Graduate School of Medicine)

  • Maria Trojanowska

    (Arthritis Center, Rheumatology, Boston University School of Medicine)

  • Ryozo Nagai

    (the University of Tokyo Graduate School of Medicine
    Center for Molecular Medicine, Jichi Medical University)

  • Shinichi Sato

    (the University of Tokyo Graduate School of Medicine)

Abstract

Systemic sclerosis (SSc) is manifested by fibrosis, vasculopathy and immune dysregulation. So far, a unifying hypothesis underpinning these pathological events remains unknown. Given that SSc is a multifactorial disease caused by both genetic and environmental factors, we focus on the two transcription factors, which modulate the fibrotic reaction and are epigenetically suppressed in SSc dermal fibroblasts, Friend leukaemia integration 1 (Fli1) and Krüppel-like factor 5 (KLF5). In addition to the Fli1 silencing-dependent collagen induction, the simultaneous knockdown of Fli1 and KLF5 synergistically enhances expression of connective tissue growth factor. Notably, mice with double heterozygous deficiency of Klf5 and Fli1 mimicking the epigenetic phenotype of SSc skin spontaneously recapitulate all the three features of SSc, including fibrosis and vasculopathy of the skin and lung, B-cell activation and autoantibody production. These studies implicate the epigenetic downregulation of Fli1 and KLF5 as a central event triggering the pathogenic triad of SSc.

Suggested Citation

  • Shinji Noda & Yoshihide Asano & Satoshi Nishimura & Takashi Taniguchi & Katsuhito Fujiu & Ichiro Manabe & Kouki Nakamura & Takashi Yamashita & Ryosuke Saigusa & Kaname Akamata & Takehiro Takahashi & Y, 2014. "Simultaneous downregulation of KLF5 and Fli1 is a key feature underlying systemic sclerosis," Nature Communications, Nature, vol. 5(1), pages 1-17, December.
    • Handle: RePEc:nat:natcom:v:5:y:2014:i:1:d:10.1038_ncomms6797
    DOI: 10.1038/ncomms6797
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