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Salmonella Typhimurium reprograms macrophage metabolism via T3SS effector SopE2 to promote intracellular replication and virulence

Author

Listed:
  • Lingyan Jiang

    (Nankai University
    Nankai University)

  • Peisheng Wang

    (Nankai University
    Nankai University)

  • Xiaorui Song

    (Nankai University
    Nankai University)

  • Huan Zhang

    (Nankai University
    Nankai University)

  • Shuangshuang Ma

    (Nankai University
    Nankai University)

  • Jingting Wang

    (Nankai University
    Nankai University)

  • Wanwu Li

    (Nankai University
    Nankai University)

  • Runxia Lv

    (Nankai University
    Nankai University)

  • Xiaoqian Liu

    (Nankai University
    Nankai University)

  • Shuai Ma

    (Nankai University
    Nankai University)

  • Jiaqi Yan

    (College of Life Sciences, Nankai University)

  • Haiyan Zhou

    (CAS-Key Laboratory of Synthetic Biology, CAS Center for Excellence in Molecular Plant Sciences, Shanghai Institute of Plant Physiology and Ecology, Chinese Academy of Sciences)

  • Di Huang

    (Nankai University
    Nankai University)

  • Zhihui Cheng

    (Nankai University
    College of Life Sciences, Nankai University)

  • Chen Yang

    (CAS-Key Laboratory of Synthetic Biology, CAS Center for Excellence in Molecular Plant Sciences, Shanghai Institute of Plant Physiology and Ecology, Chinese Academy of Sciences)

  • Lu Feng

    (Nankai University
    Nankai University)

  • Lei Wang

    (Nankai University
    Nankai University
    Nankai University Affiliated Hospital, Nankai University)

Abstract

Salmonella Typhimurium establishes systemic infection by replicating in host macrophages. Here we show that macrophages infected with S. Typhimurium exhibit upregulated glycolysis and decreased serine synthesis, leading to accumulation of glycolytic intermediates. The effects on serine synthesis are mediated by bacterial protein SopE2, a type III secretion system (T3SS) effector encoded in pathogenicity island SPI-1. The changes in host metabolism promote intracellular replication of S. Typhimurium via two mechanisms: decreased glucose levels lead to upregulated bacterial uptake of 2- and 3-phosphoglycerate and phosphoenolpyruvate (carbon sources), while increased pyruvate and lactate levels induce upregulation of another pathogenicity island, SPI-2, known to encode virulence factors. Pharmacological or genetic inhibition of host glycolysis, activation of host serine synthesis, or deletion of either the bacterial transport or signal sensor systems for those host glycolytic intermediates impairs S. Typhimurium replication or virulence.

Suggested Citation

  • Lingyan Jiang & Peisheng Wang & Xiaorui Song & Huan Zhang & Shuangshuang Ma & Jingting Wang & Wanwu Li & Runxia Lv & Xiaoqian Liu & Shuai Ma & Jiaqi Yan & Haiyan Zhou & Di Huang & Zhihui Cheng & Chen , 2021. "Salmonella Typhimurium reprograms macrophage metabolism via T3SS effector SopE2 to promote intracellular replication and virulence," Nature Communications, Nature, vol. 12(1), pages 1-18, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-21186-4
    DOI: 10.1038/s41467-021-21186-4
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    Cited by:

    1. Shuyu Li & Qinmeng Liu & Chongyi Duan & Jialin Li & Hengxi Sun & Lei Xu & Qiao Yang & Yao Wang & Xihui Shen & Lei Zhang, 2023. "c-di-GMP inhibits the DNA binding activity of H-NS in Salmonella," Nature Communications, Nature, vol. 14(1), pages 1-11, December.
    2. Curtis Cottam & Rhys T. White & Lauren C. Beck & Christopher J. Stewart & Scott A. Beatson & Elisabeth C. Lowe & Rhys Grinter & James P. R. Connolly, 2024. "Metabolism of l-arabinose converges with virulence regulation to promote enteric pathogen fitness," Nature Communications, Nature, vol. 15(1), pages 1-14, December.

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