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Impaired peroxisomal import in Drosophila oenocytes causes cardiac dysfunction by inducing upd3 as a peroxikine

Author

Listed:
  • Kerui Huang

    (Iowa State University)

  • Ting Miao

    (Iowa State University)

  • Kai Chang

    (Iowa State University)

  • Jinoh Kim

    (Iowa State University)

  • Ping Kang

    (Iowa State University)

  • Qiuhan Jiang

    (Iowa State University)

  • Andrew J. Simmonds

    (University of Alberta)

  • Francesca Di Cara

    (Dalhousie University)

  • Hua Bai

    (Iowa State University)

Abstract

Aging is characterized by a chronic, low-grade inflammation, which is a major risk factor for cardiovascular diseases. It remains poorly understood whether pro-inflammatory factors released from non-cardiac tissues contribute to the non-autonomous regulation of age-related cardiac dysfunction. Here, we report that age-dependent induction of cytokine unpaired 3 (upd3) in Drosophila oenocytes (hepatocyte-like cells) is the primary non-autonomous mechanism for cardiac aging. We show that upd3 is significantly up-regulated in aged oenocytes. Oenocyte-specific knockdown of upd3 is sufficient to block aging-induced cardiac arrhythmia. We further show that the age-dependent induction of upd3 is triggered by impaired peroxisomal import and elevated JNK signaling in aged oenocytes. We term hormonal factors induced by peroxisome dysfunction as peroxikines. Intriguingly, oenocyte-specific overexpression of Pex5, the key peroxisomal import receptor, blocks age-related upd3 induction and alleviates cardiac arrhythmicity. Thus, our studies identify an important role of hepatocyte-specific peroxisomal import in mediating non-autonomous regulation of cardiac aging.

Suggested Citation

  • Kerui Huang & Ting Miao & Kai Chang & Jinoh Kim & Ping Kang & Qiuhan Jiang & Andrew J. Simmonds & Francesca Di Cara & Hua Bai, 2020. "Impaired peroxisomal import in Drosophila oenocytes causes cardiac dysfunction by inducing upd3 as a peroxikine," Nature Communications, Nature, vol. 11(1), pages 1-15, December.
  • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-16781-w
    DOI: 10.1038/s41467-020-16781-w
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    Cited by:

    1. Akiko Koto & Makoto Tamura & Pui Shan Wong & Sachiyo Aburatani & Eyal Privman & CĂ©line Stoffel & Alessandro Crespi & Sean Keane McKenzie & Christine Mendola & Tomas Kay & Laurent Keller, 2023. "Social isolation shortens lifespan through oxidative stress in ants," Nature Communications, Nature, vol. 14(1), pages 1-13, December.

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