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Klebsiella pneumoniae employs a type VI secretion system to overcome microbiota-mediated colonization resistance

Author

Listed:
  • Andrew S. Bray

    (Wake Forest School of Medicine)

  • Christopher A. Broberg

    (University of North Carolina School of Medicine)

  • Andrew W. Hudson

    (Wake Forest School of Medicine)

  • Weisheng Wu

    (University of Michigan)

  • Ravinder K. Nagpal

    (Florida State University College of Health and Human Sciences)

  • Maidul Islam

    (Wake Forest School of Medicine)

  • Juan D. Valencia-Bacca

    (Wake Forest School of Medicine)

  • Fawaz Shahid

    (Winston Salem)

  • Giovanna E. Hernandez

    (Wake Forest School of Medicine)

  • Noah A. Nutter

    (Wake Forest School of Medicine)

  • Kimberly A. Walker

    (University of North Carolina School of Medicine)

  • Emma F. Bennett

    (Wake Forest School of Medicine)

  • Taylor M. Young

    (Wake Forest School of Medicine)

  • Andrew J. Barnes

    (Wake Forest School of Medicine)

  • David A. Ornelles

    (Wake Forest School of Medicine)

  • Virginia L. Miller

    (University of North Carolina School of Medicine
    University of North Carolina School of Medicine)

  • M. Ammar Zafar

    (Wake Forest School of Medicine
    Emory University School of Medicine)

Abstract

Microbial species must compete for space and nutrients to persist in the gastrointestinal (GI) tract, and our understanding of the complex pathobiont-microbiota interactions is far from complete. Klebsiella pneumoniae, a problematic, often drug-resistant nosocomial pathogen, can colonize the GI tract asymptomatically, serving as an infection reservoir. To provide insight on how K. pneumoniae interacts with the resident gut microbiome, we conduct a transposon mutagenesis screen using a murine model of GI colonization with an intact microbiota. Among the genes identified were those encoding a type VI secretion system (T6SS), which mediates contact-dependent killing of gram-negative bacteria. From several approaches, we demonstrate that the T6SS is critical for K. pneumoniae gut colonization. Metagenomics and in vitro killing assays reveal that K. pneumoniae reduces Betaproteobacteria species in a T6SS-dependent manner, thus identifying specific species targeted by K. pneumoniae. We further show that T6SS gene expression is controlled by several transcriptional regulators and that expression only occurs in vitro under conditions that mimic the gut environment. By enabling K. pneumoniae to thrive in the gut, the T6SS indirectly contributes to the pathogenic potential of this organism. These observations advance our molecular understanding of how K. pneumoniae successfully colonizes the GI tract.

Suggested Citation

  • Andrew S. Bray & Christopher A. Broberg & Andrew W. Hudson & Weisheng Wu & Ravinder K. Nagpal & Maidul Islam & Juan D. Valencia-Bacca & Fawaz Shahid & Giovanna E. Hernandez & Noah A. Nutter & Kimberly, 2025. "Klebsiella pneumoniae employs a type VI secretion system to overcome microbiota-mediated colonization resistance," Nature Communications, Nature, vol. 16(1), pages 1-17, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-56309-8
    DOI: 10.1038/s41467-025-56309-8
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    References listed on IDEAS

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