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ER-associated ubiquitin ligase HRD1 programs liver metabolism by targeting multiple metabolic enzymes

Author

Listed:
  • Juncheng Wei

    (Northwestern University Feinberg School of Medicine)

  • Yanzhi Yuan

    (National Center for Protein Sciences (Beijing), Beijing Institute of Lifeomics)

  • Lu Chen

    (Chinese Academy of Medical Science)

  • Yuanming Xu

    (Northwestern University Feinberg School of Medicine)

  • Yuehui Zhang

    (National Center for Protein Sciences (Beijing), Beijing Institute of Lifeomics)

  • Yajun Wang

    (Northwestern University Feinberg School of Medicine)

  • Yanjie Yang

    (Public Health Institute of Harbin Medical University)

  • Clara Bien Peek

    (Northwestern University Feinberg School of Medicine)

  • Lauren Diebold

    (Northwestern University Feinberg School of Mdicine)

  • Yi Yang

    (Northwestern University Feinberg School of Medicine)

  • Beixue Gao

    (Northwestern University Feinberg School of Medicine)

  • Chaozhi Jin

    (National Center for Protein Sciences (Beijing), Beijing Institute of Lifeomics)

  • Johanna Melo-Cardenas

    (Northwestern University Feinberg School of Medicine)

  • Navdeep S. Chandel

    (Northwestern University Feinberg School of Mdicine)

  • Donna D. Zhang

    (University of Arizona)

  • Hui Pan

    (Chinese Academy of Medical Science)

  • Kezhong Zhang

    (Wayne State University School of Medicine)

  • Jian Wang

    (National Center for Protein Sciences (Beijing), Beijing Institute of Lifeomics)

  • Fuchu He

    (National Center for Protein Sciences (Beijing), Beijing Institute of Lifeomics)

  • Deyu Fang

    (Northwestern University Feinberg School of Medicine)

Abstract

The HMG-CoA reductase degradation protein 1 (HRD1) has been identified as a key enzyme for endoplasmic reticulum-associated degradation of misfolded proteins, but its organ-specific physiological functions remain largely undefined. Here we show that mice with HRD1 deletion specifically in the liver display increased energy expenditure and are resistant to HFD-induced obesity and liver steatosis and insulin resistance. Proteomic analysis identifies a HRD1 interactome, a large portion of which includes metabolic regulators. Loss of HRD1 results in elevated ENTPD5, CPT2, RMND1, and HSD17B4 protein levels and a consequent hyperactivation of both AMPK and AKT pathways. Genome-wide mRNA sequencing revealed that HRD1-deficiency reprograms liver metabolic gene expression profiles, including suppressing genes involved in glycogenesis and lipogenesis and upregulating genes involved in glycolysis and fatty acid oxidation. We propose HRD1 as a liver metabolic regulator and a potential drug target for obesity, fatty liver disease, and insulin resistance associated with the metabolic syndrome.

Suggested Citation

  • Juncheng Wei & Yanzhi Yuan & Lu Chen & Yuanming Xu & Yuehui Zhang & Yajun Wang & Yanjie Yang & Clara Bien Peek & Lauren Diebold & Yi Yang & Beixue Gao & Chaozhi Jin & Johanna Melo-Cardenas & Navdeep S, 2018. "ER-associated ubiquitin ligase HRD1 programs liver metabolism by targeting multiple metabolic enzymes," Nature Communications, Nature, vol. 9(1), pages 1-14, December.
    • Handle: RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-06091-7
    DOI: 10.1038/s41467-018-06091-7
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