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Glycogen metabolism regulates macrophage-mediated acute inflammatory responses

Author

Listed:
  • Jingwei Ma

    (Huazhong University of Science & Technology)

  • Keke Wei

    (Huazhong University of Science & Technology)

  • Junwei Liu

    (Huazhong University of Science & Technology)

  • Ke Tang

    (Huazhong University of Science & Technology)

  • Huafeng Zhang

    (Huazhong University of Science & Technology)

  • Liyan Zhu

    (Huazhong University of Science & Technology)

  • Jie Chen

    (Huazhong University of Science & Technology)

  • Fei Li

    (Huazhong University of Science & Technology)

  • Pingwei Xu

    (Huazhong University of Science & Technology)

  • Jie Chen

    (Huazhong University of Science & Technology)

  • Jincheng Liu

    (Huazhong University of Science & Technology)

  • Haiqing Fang

    (Huazhong University of Science & Technology)

  • Liang Tang

    (Huazhong University of Science & Technology)

  • Dianheng Wang

    (Huazhong University of Science & Technology)

  • Liping Zeng

    (Huazhong University of Science & Technology)

  • Weiwei Sun

    (Huazhong University of Science & Technology)

  • Jing Xie

    (Chinese Academy of Medical Sciences (CAMS) & Peking Union Medical College
    Clinical Immunology Center, CAMS)

  • Yuying Liu

    (Chinese Academy of Medical Sciences (CAMS) & Peking Union Medical College
    Clinical Immunology Center, CAMS)

  • Bo Huang

    (Huazhong University of Science & Technology
    Huazhong University of Science & Technology
    Chinese Academy of Medical Sciences (CAMS) & Peking Union Medical College
    Clinical Immunology Center, CAMS)

Abstract

Our current understanding of how sugar metabolism affects inflammatory pathways in macrophages is incomplete. Here, we show that glycogen metabolism is an important event that controls macrophage-mediated inflammatory responses. IFN-γ/LPS treatment stimulates macrophages to synthesize glycogen, which is then channeled through glycogenolysis to generate G6P and further through the pentose phosphate pathway to yield abundant NADPH, ensuring high levels of reduced glutathione for inflammatory macrophage survival. Meanwhile, glycogen metabolism also increases UDPG levels and the receptor P2Y14 in macrophages. The UDPG/P2Y14 signaling pathway not only upregulates the expression of STAT1 via activating RARβ but also promotes STAT1 phosphorylation by downregulating phosphatase TC45. Blockade of this glycogen metabolic pathway disrupts acute inflammatory responses in multiple mouse models. Glycogen metabolism also regulates inflammatory responses in patients with sepsis. These findings show that glycogen metabolism in macrophages is an important regulator and indicate strategies that might be used to treat acute inflammatory diseases.

Suggested Citation

  • Jingwei Ma & Keke Wei & Junwei Liu & Ke Tang & Huafeng Zhang & Liyan Zhu & Jie Chen & Fei Li & Pingwei Xu & Jie Chen & Jincheng Liu & Haiqing Fang & Liang Tang & Dianheng Wang & Liping Zeng & Weiwei S, 2020. "Glycogen metabolism regulates macrophage-mediated acute inflammatory responses," Nature Communications, Nature, vol. 11(1), pages 1-16, December.
  • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-15636-8
    DOI: 10.1038/s41467-020-15636-8
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    Cited by:

    1. Xiaoke Yang & Mingqi Zhu & Xue Lu & Yuxin Wang & Junyu Xiao, 2024. "Architecture and activation of human muscle phosphorylase kinase," Nature Communications, Nature, vol. 15(1), pages 1-14, December.
    2. Chunxiao Liu & Hui Wang & Lu Han & Yifan Zhu & Shurui Ni & Jingke Zhi & Xiping Yang & Jiayi Zhi & Tian Sheng & Huanqiu Li & Qinghua Hu, 2024. "Targeting P2Y14R protects against necroptosis of intestinal epithelial cells through PKA/CREB/RIPK1 axis in ulcerative colitis," Nature Communications, Nature, vol. 15(1), pages 1-16, December.
    3. Yanling Zhang & Yafei Cao & Xia Wu & Zhenghui Chen & Bowen Chen & Anhui Wang & Yanshen Guo & Wei Chen & Ruolan Xue & Zihua Liu & Yuanpei Li & Tian Li & Ruiqin Cheng & Ning Zhou & Jing Li & Yuan Liu & , 2024. "Thermal proteome profiling reveals fructose-1,6-bisphosphate as a phosphate donor to activate phosphoglycerate mutase 1," Nature Communications, Nature, vol. 15(1), pages 1-17, December.

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