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Deficiency of ASGR1 promotes liver injury by increasing GP73-mediated hepatic endoplasmic reticulum stress

Author

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  • Zhe Zhang

    (College of Animal Science and Technology, Northwest A&F University)

  • Xiang Kai Leng

    (College of Animal Science and Technology, Northwest A&F University)

  • Yuan Yuan Zhai

    (College of Animal Science and Technology, Northwest A&F University)

  • Xiao Zhang

    (College of Animal Science and Technology, Northwest A&F University)

  • Zhi Wei Sun

    (Beijing Sungen Biomedical Technology Co. Ltd)

  • Jun Ying Xiao

    (College of Animal Science and Technology, Northwest A&F University)

  • Jun Feng Lu

    (College of Animal Science and Technology, Northwest A&F University)

  • Kun Liu

    (Xi-Jing Hospital, Air Force Medical University)

  • Bo Xia

    (College of Animal Science and Technology, Northwest A&F University)

  • Qi Gao

    (Beijing Sungen Biomedical Technology Co. Ltd)

  • Miao Jia

    (Beijing Sungen Biomedical Technology Co. Ltd)

  • Cheng Qi Xu

    (Huazhong University of Science and Technology)

  • Yi Na Jiang

    (the First Affiliated Hospital of Xi’an Jiaotong University)

  • Xiao Gang Zhang

    (the First Affiliated Hospital of Xi’an Jiaotong University)

  • Kai Shan Tao

    (Xi-Jing Hospital, Air Force Medical University)

  • Jiang Wei Wu

    (College of Animal Science and Technology, Northwest A&F University)

Abstract

Liver injury is a core pathological process in the majority of liver diseases, yet the genetic factors predisposing individuals to its initiation and progression remain poorly understood. Here we show that asialoglycoprotein receptor 1 (ASGR1), a lectin specifically expressed in the liver, is downregulated in patients with liver fibrosis or cirrhosis and male mice with liver injury. ASGR1 deficiency exacerbates while its overexpression mitigates acetaminophen-induced acute and CCl4-induced chronic liver injuries in male mice. Mechanistically, ASGR1 binds to an endoplasmic reticulum stress mediator GP73 and facilitates its lysosomal degradation. ASGR1 depletion increases circulating GP73 levels and promotes the interaction between GP73 and BIP to activate endoplasmic reticulum stress, leading to liver injury. Neutralization of GP73 not only attenuates ASGR1 deficiency-induced liver injuries but also improves survival in mice received a lethal dose of acetaminophen. Collectively, these findings identify ASGR1 as a potential genetic determinant of susceptibility to liver injury and propose it as a therapeutic target for the treatment of liver injury.

Suggested Citation

  • Zhe Zhang & Xiang Kai Leng & Yuan Yuan Zhai & Xiao Zhang & Zhi Wei Sun & Jun Ying Xiao & Jun Feng Lu & Kun Liu & Bo Xia & Qi Gao & Miao Jia & Cheng Qi Xu & Yi Na Jiang & Xiao Gang Zhang & Kai Shan Tao, 2024. "Deficiency of ASGR1 promotes liver injury by increasing GP73-mediated hepatic endoplasmic reticulum stress," Nature Communications, Nature, vol. 15(1), pages 1-17, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-46135-9
    DOI: 10.1038/s41467-024-46135-9
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    References listed on IDEAS

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    1. Yumeng Peng & Qiang Zeng & Luming Wan & Enhao Ma & Huilong Li & Xiaopan Yang & Yanhong Zhang & Linfei Huang & Haotian Lin & Jiangyue Feng & Yixin Xu & Jingfei Li & Muyi Liu & Jing Liu & Changqin Lin &, 2021. "GP73 is a TBC-domain Rab GTPase-activating protein contributing to the pathogenesis of non-alcoholic fatty liver disease without obesity," Nature Communications, Nature, vol. 12(1), pages 1-16, December.
    2. Ju-Qiong Wang & Liang-Liang Li & Ao Hu & Gang Deng & Jian Wei & Yun-Feng Li & Yuan-Bin Liu & Xiao-Yi Lu & Zhi-Ping Qiu & Xiong-Jie Shi & Xiaolu Zhao & Jie Luo & Bao-Liang Song, 2022. "Inhibition of ASGR1 decreases lipid levels by promoting cholesterol excretion," Nature, Nature, vol. 608(7922), pages 413-420, August.
    3. Yuya Yoshida & Naoya Matsunaga & Takaharu Nakao & Kengo Hamamura & Hideaki Kondo & Tomomi Ide & Hiroyuki Tsutsui & Akito Tsuruta & Masayuki Kurogi & Michio Nakaya & Hitoshi Kurose & Satoru Koyanagi & , 2021. "Alteration of circadian machinery in monocytes underlies chronic kidney disease-associated cardiac inflammation and fibrosis," Nature Communications, Nature, vol. 12(1), pages 1-17, December.
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