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Patterns of Klebsiella pneumoniae bacteremic dissemination from the lung

Author

Listed:
  • Caitlyn L. Holmes

    (University of Michigan Medical School
    University of Michigan Medical School)

  • Katherine G. Dailey

    (Harvard Medical School
    Brigham and Women’s Hospital)

  • Karthik Hullahalli

    (Harvard Medical School
    Brigham and Women’s Hospital)

  • Alexis E. Wilcox

    (University of Michigan Medical School)

  • Sophia Mason

    (University of Michigan Medical School)

  • Bridget S. Moricz

    (University of Michigan Medical School
    University of Michigan Medical School)

  • Lavinia V. Unverdorben

    (University of Michigan Medical School)

  • George I. Balazs

    (Harvard Medical School
    Brigham and Women’s Hospital)

  • Matthew K. Waldor

    (Harvard Medical School
    Brigham and Women’s Hospital
    Howard Hughes Medical Institute)

  • Michael A. Bachman

    (University of Michigan Medical School
    University of Michigan Medical School)

Abstract

Bacteremia, a leading cause of death, generally arises after bacteria establish infection in a particular tissue and transit to secondary sites. Studying dissemination from primary sites by solely measuring bacterial burdens does not capture the movement of individual clones. By barcoding Klebsiella pneumoniae, a leading cause of bacteremia, we track pathogen dissemination following pneumonia. Variability in organ bacterial burdens is attributable to two distinct dissemination patterns distinguished by the degree of similarity between the lung and systemic sites. In metastatic dissemination, lung bacterial clones undergo heterogeneous expansion and the dominant clones spread to secondary organs, leading to greater similarity between sites. In direct dissemination, bacterial clones exit the lungs without clonal expansion, leading to lower burdens in systemic sites and more dissimilarity from the lung. We uncover bacterial and host factors that influence the dynamics of clonal sharing and expansion. Here, our data reveal unexpected heterogeneity in Klebsiella bacteremia dynamics and define a framework for understanding within-host bacterial dissemination.

Suggested Citation

  • Caitlyn L. Holmes & Katherine G. Dailey & Karthik Hullahalli & Alexis E. Wilcox & Sophia Mason & Bridget S. Moricz & Lavinia V. Unverdorben & George I. Balazs & Matthew K. Waldor & Michael A. Bachman, 2025. "Patterns of Klebsiella pneumoniae bacteremic dissemination from the lung," Nature Communications, Nature, vol. 16(1), pages 1-13, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-56095-3
    DOI: 10.1038/s41467-025-56095-3
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    References listed on IDEAS

    as
    1. Kelly E. R. Bachta & Jonathan P. Allen & Bettina H. Cheung & Cheng-Hsun Chiu & Alan R. Hauser, 2020. "Systemic infection facilitates transmission of Pseudomonas aeruginosa in mice," Nature Communications, Nature, vol. 11(1), pages 1-13, December.
    2. Ian W. Campbell & Karthik Hullahalli & Jerrold R. Turner & Matthew K. Waldor, 2023. "Quantitative dose-response analysis untangles host bottlenecks to enteric infection," Nature Communications, Nature, vol. 14(1), pages 1-13, December.
    3. Ping Zhou & Yang She & Na Dong & Peng Li & Huabin He & Alessio Borio & Qingcui Wu & Shan Lu & Xiaojun Ding & Yong Cao & Yue Xu & Wenqing Gao & Mengqiu Dong & Jingjin Ding & Da-Cheng Wang & Alla Zamyat, 2018. "Alpha-kinase 1 is a cytosolic innate immune receptor for bacterial ADP-heptose," Nature, Nature, vol. 561(7721), pages 122-126, September.
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