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REDD1 promotes obesity-induced metabolic dysfunction via atypical NF-κB activation

Author

Listed:
  • Dong-Keon Lee

    (Kangwon National University)

  • Taesam Kim

    (Kangwon National University)

  • Junyoung Byeon

    (Kangwon National University)

  • Minsik Park

    (Kangwon National University)

  • Suji Kim

    (Kangwon National University)

  • Joohwan Kim

    (Kangwon National University)

  • Seunghwan Choi

    (Kangwon National University)

  • Gihwan Lee

    (Gyeongsang National University)

  • Chanin Park

    (Gyeongsang National University)

  • Keun Woo Lee

    (Gyeongsang National University)

  • Yong Jung Kwon

    (GILO Foundation)

  • Jeong-Hyung Lee

    (Kangwon National University)

  • Young-Guen Kwon

    (Yonsei University)

  • Young-Myeong Kim

    (Kangwon National University)

Abstract

Regulated in development and DNA damage response 1 (REDD1) expression is upregulated in response to metabolic imbalance and obesity. However, its role in obesity-associated complications is unclear. Here, we demonstrate that the REDD1–NF-κB axis is crucial for metabolic inflammation and dysregulation. Mice lacking Redd1 in the whole body or adipocytes exhibited restrained diet-induced obesity, inflammation, insulin resistance, and hepatic steatosis. Myeloid Redd1-deficient mice showed similar results, without restrained obesity and hepatic steatosis. Redd1-deficient adipose-derived stem cells lost their potential to differentiate into adipocytes; however, REDD1 overexpression stimulated preadipocyte differentiation and proinflammatory cytokine expression through atypical IKK-independent NF-κB activation by sequestering IκBα from the NF-κB/IκBα complex. REDD1 with mutated Lys219/220Ala, key amino acid residues for IκBα binding, could not stimulate NF-κB activation, adipogenesis, and inflammation in vitro and prevented obesity-related phenotypes in knock-in mice. The REDD1-atypical NF-κB activation axis is a therapeutic target for obesity, meta-inflammation, and metabolic complications.

Suggested Citation

  • Dong-Keon Lee & Taesam Kim & Junyoung Byeon & Minsik Park & Suji Kim & Joohwan Kim & Seunghwan Choi & Gihwan Lee & Chanin Park & Keun Woo Lee & Yong Jung Kwon & Jeong-Hyung Lee & Young-Guen Kwon & You, 2022. "REDD1 promotes obesity-induced metabolic dysfunction via atypical NF-κB activation," Nature Communications, Nature, vol. 13(1), pages 1-16, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-34110-1
    DOI: 10.1038/s41467-022-34110-1
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    References listed on IDEAS

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    1. K. Teoman Uysal & Sarah M. Wiesbrock & Michael W. Marino & Gkhan S. Hotamisligil, 1997. "Protection from obesity-induced insulin resistance in mice lacking TNF-α function," Nature, Nature, vol. 389(6651), pages 610-614, October.
    2. Sung Hee Um & Francesca Frigerio & Mitsuhiro Watanabe & Frédéric Picard & Manel Joaquin & Melanie Sticker & Stefano Fumagalli & Peter R. Allegrini & Sara C. Kozma & Johan Auwerx & George Thomas, 2004. "Correction: Corrigendum: Absence of S6K1 protects against age- and diet-induced obesity while enhancing insulin sensitivity," Nature, Nature, vol. 431(7007), pages 485-485, September.
    3. Sung Hee Um & Francesca Frigerio & Mitsuhiro Watanabe & Frédéric Picard & Manel Joaquin & Melanie Sticker & Stefano Fumagalli & Peter R. Allegrini & Sara C. Kozma & Johan Auwerx & George Thomas, 2004. "Absence of S6K1 protects against age- and diet-induced obesity while enhancing insulin sensitivity," Nature, Nature, vol. 431(7005), pages 200-205, September.
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