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Glutamine metabolism inhibition has dual immunomodulatory and antibacterial activities against Mycobacterium tuberculosis

Author

Listed:
  • Sadiya Parveen

    (Johns Hopkins School of Medicine)

  • Jessica Shen

    (Johns Hopkins School of Medicine)

  • Shichun Lun

    (Johns Hopkins School of Medicine)

  • Liang Zhao

    (Johns Hopkins School of Medicine)

  • Jesse Alt

    (Johns Hopkins University)

  • Benjamin Koleske

    (Johns Hopkins School of Medicine)

  • Robert D. Leone

    (Johns Hopkins School of Medicine
    The Bloomberg-Kimmel Institute for Cancer Immunotherapy, Johns Hopkins School of Medicine)

  • Rana Rais

    (Johns Hopkins Drug Discovery, Johns Hopkins School of Medicine
    Johns Hopkins School of Medicine
    Johns Hopkins School of Medicine)

  • Jonathan D. Powell

    (The Bloomberg-Kimmel Institute for Cancer Immunotherapy, Johns Hopkins School of Medicine
    Calico)

  • John R. Murphy

    (Johns Hopkins School of Medicine)

  • Barbara S. Slusher

    (Johns Hopkins School of Medicine
    Johns Hopkins University
    The Bloomberg-Kimmel Institute for Cancer Immunotherapy, Johns Hopkins School of Medicine
    Johns Hopkins Drug Discovery, Johns Hopkins School of Medicine)

  • William R. Bishai

    (Johns Hopkins School of Medicine)

Abstract

As one of the most successful human pathogens, Mycobacterium tuberculosis (Mtb) has evolved a diverse array of determinants to subvert host immunity and alter host metabolic patterns. However, the mechanisms of pathogen interference with host metabolism remain poorly understood. Here we show that a glutamine metabolism antagonist, JHU083, inhibits Mtb proliferation in vitro and in vivo. JHU083-treated mice exhibit weight gain, improved survival, a 2.5 log lower lung bacillary burden at 35 days post-infection, and reduced lung pathology. JHU083 treatment also initiates earlier T-cell recruitment, increased proinflammatory myeloid cell infiltration, and a reduced frequency of immunosuppressive myeloid cells when compared to uninfected and rifampin-treated controls. Metabolomic analysis of lungs from JHU083-treated Mtb-infected mice reveals citrulline accumulation, suggesting elevated nitric oxide (NO) synthesis, and lowered levels of quinolinic acid which is derived from the immunosuppressive metabolite kynurenine. JHU083-treated macrophages also produce more NO potentiating their antibacterial activity. When tested in an immunocompromised mouse model of Mtb infection, JHU083 loses its therapeutic efficacy suggesting the drug’s host-directed effects are likely to be predominant. Collectively, these data reveal that JHU083-mediated glutamine metabolism inhibition results in dual antibacterial and host-directed activity against tuberculosis.

Suggested Citation

  • Sadiya Parveen & Jessica Shen & Shichun Lun & Liang Zhao & Jesse Alt & Benjamin Koleske & Robert D. Leone & Rana Rais & Jonathan D. Powell & John R. Murphy & Barbara S. Slusher & William R. Bishai, 2023. "Glutamine metabolism inhibition has dual immunomodulatory and antibacterial activities against Mycobacterium tuberculosis," Nature Communications, Nature, vol. 14(1), pages 1-15, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-43304-0
    DOI: 10.1038/s41467-023-43304-0
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    References listed on IDEAS

    as
    1. Shichun Lun & Haidan Guo & Oluseye K. Onajole & Marco Pieroni & Hendra Gunosewoyo & Gang Chen & Suresh K. Tipparaju & Nicole C. Ammerman & Alan P. Kozikowski & William R. Bishai, 2013. "Indoleamides are active against drug-resistant Mycobacterium tuberculosis," Nature Communications, Nature, vol. 4(1), pages 1-8, December.
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