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Hydrogen sulfide stimulates Mycobacterium tuberculosis respiration, growth and pathogenesis

Author

Listed:
  • Vikram Saini

    (University of Alabama at Birmingham
    University of Alabama at Birmingham
    All India Institute of Medical Sciences)

  • Krishna C. Chinta

    (University of Alabama at Birmingham)

  • Vineel P. Reddy

    (University of Alabama at Birmingham)

  • Joel N. Glasgow

    (University of Alabama at Birmingham)

  • Asaf Stein

    (University of Alabama at Birmingham)

  • Dirk A. Lamprecht

    (Africa Health Research Institute
    Janssen Pharmaceutica NV)

  • Md. Aejazur Rahman

    (Africa Health Research Institute)

  • Jared S. Mackenzie

    (Africa Health Research Institute)

  • Barry E. Truebody

    (Africa Health Research Institute)

  • John H. Adamson

    (Africa Health Research Institute)

  • Tafara T. R. Kunota

    (Africa Health Research Institute)

  • Shannon M. Bailey

    (University of Alabama at Birmingham)

  • Douglas R. Moellering

    (University of Alabama at Birmingham
    University of Alabama at Birmingham)

  • Jack R. Lancaster

    (University of Pittsburgh School of Medicine)

  • Adrie J. C. Steyn

    (University of Alabama at Birmingham
    University of Alabama at Birmingham
    Africa Health Research Institute
    University of Alabama at Birmingham)

Abstract

Hydrogen sulfide (H2S) is involved in numerous pathophysiological processes and shares overlapping functions with CO and •NO. However, the importance of host-derived H2S in microbial pathogenesis is unknown. Here we show that Mtb-infected mice deficient in the H2S-producing enzyme cystathionine β-synthase (CBS) survive longer with reduced organ burden, and that pharmacological inhibition of CBS reduces Mtb bacillary load in mice. High-resolution respirometry, transcriptomics and mass spectrometry establish that H2S stimulates Mtb respiration and bioenergetics predominantly via cytochrome bd oxidase, and that H2S reverses •NO-mediated inhibition of Mtb respiration. Further, exposure of Mtb to H2S regulates genes involved in sulfur and copper metabolism and the Dos regulon. Our results indicate that Mtb exploits host-derived H2S to promote growth and disease, and suggest that host-directed therapies targeting H2S production may be potentially useful for the management of tuberculosis and other microbial infections.

Suggested Citation

  • Vikram Saini & Krishna C. Chinta & Vineel P. Reddy & Joel N. Glasgow & Asaf Stein & Dirk A. Lamprecht & Md. Aejazur Rahman & Jared S. Mackenzie & Barry E. Truebody & John H. Adamson & Tafara T. R. Kun, 2020. "Hydrogen sulfide stimulates Mycobacterium tuberculosis respiration, growth and pathogenesis," Nature Communications, Nature, vol. 11(1), pages 1-17, December.
    • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-019-14132-y
    DOI: 10.1038/s41467-019-14132-y
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