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Cardiac fibroblasts regulate the development of heart failure via Htra3-TGF-β-IGFBP7 axis

Author

Listed:
  • Toshiyuki Ko

    (The University of Tokyo
    The University of Tokyo)

  • Seitaro Nomura

    (The University of Tokyo
    The University of Tokyo)

  • Shintaro Yamada

    (The University of Tokyo)

  • Kanna Fujita

    (The University of Tokyo
    The University of Tokyo)

  • Takanori Fujita

    (The University of Tokyo)

  • Masahiro Satoh

    (The University of Tokyo
    Brigham and Women’s Hospital, Harvard Medical School)

  • Chio Oka

    (Nara Institute of Science and Technology)

  • Manami Katoh

    (The University of Tokyo)

  • Masamichi Ito

    (The University of Tokyo)

  • Mikako Katagiri

    (The University of Tokyo)

  • Tatsuro Sassa

    (The University of Tokyo)

  • Bo Zhang

    (The University of Tokyo)

  • Satoshi Hatsuse

    (The University of Tokyo)

  • Takanobu Yamada

    (The University of Tokyo)

  • Mutsuo Harada

    (The University of Tokyo)

  • Haruhiro Toko

    (The University of Tokyo)

  • Eisuke Amiya

    (The University of Tokyo)

  • Masaru Hatano

    (The University of Tokyo)

  • Osamu Kinoshita

    (The University of Tokyo)

  • Kan Nawata

    (St. Marianna University School of Medicine)

  • Hiroyuki Abe

    (The University of Tokyo)

  • Tetsuo Ushiku

    (The University of Tokyo)

  • Minoru Ono

    (The University of Tokyo)

  • Masashi Ikeuchi

    (Tokyo Medical and Dental University)

  • Hiroyuki Morita

    (The University of Tokyo)

  • Hiroyuki Aburatani

    (The University of Tokyo)

  • Issei Komuro

    (The University of Tokyo)

Abstract

Tissue fibrosis and organ dysfunction are hallmarks of age-related diseases including heart failure, but it remains elusive whether there is a common pathway to induce both events. Through single-cell RNA-seq, spatial transcriptomics, and genetic perturbation, we elucidate that high-temperature requirement A serine peptidase 3 (Htra3) is a critical regulator of cardiac fibrosis and heart failure by maintaining the identity of quiescent cardiac fibroblasts through degrading transforming growth factor-β (TGF-β). Pressure overload downregulates expression of Htra3 in cardiac fibroblasts and activated TGF-β signaling, which induces not only cardiac fibrosis but also heart failure through DNA damage accumulation and secretory phenotype induction in failing cardiomyocytes. Overexpression of Htra3 in the heart inhibits TGF-β signaling and ameliorates cardiac dysfunction after pressure overload. Htra3-regulated induction of spatio-temporal cardiac fibrosis and cardiomyocyte secretory phenotype are observed specifically in infarct regions after myocardial infarction. Integrative analyses of single-cardiomyocyte transcriptome and plasma proteome in human reveal that IGFBP7, which is a cytokine downstream of TGF-β and secreted from failing cardiomyocytes, is the most predictable marker of advanced heart failure. These findings highlight the roles of cardiac fibroblasts in regulating cardiomyocyte homeostasis and cardiac fibrosis through the Htra3-TGF-β-IGFBP7 pathway, which would be a therapeutic target for heart failure.

Suggested Citation

  • Toshiyuki Ko & Seitaro Nomura & Shintaro Yamada & Kanna Fujita & Takanori Fujita & Masahiro Satoh & Chio Oka & Manami Katoh & Masamichi Ito & Mikako Katagiri & Tatsuro Sassa & Bo Zhang & Satoshi Hatsu, 2022. "Cardiac fibroblasts regulate the development of heart failure via Htra3-TGF-β-IGFBP7 axis," Nature Communications, Nature, vol. 13(1), pages 1-17, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-30630-y
    DOI: 10.1038/s41467-022-30630-y
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