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Global and local selection acting on the pathogen Stenotrophomonas maltophilia in the human lung

Author

Listed:
  • Hattie Chung

    (Harvard Medical School)

  • Tami D. Lieberman

    (Harvard Medical School)

  • Sara O. Vargas

    (Boston Children’s Hospital)

  • Kelly B. Flett

    (Boston Children’s Hospital)

  • Alexander J. McAdam

    (Boston Children’s Hospital)

  • Gregory P. Priebe

    (Boston Children’s Hospital
    Perioperative and Pain Medicine, Boston Children’s Hospital)

  • Roy Kishony

    (Harvard Medical School
    Faculty of Biology, Technion Israel Institute of Technology
    Faculty of Computer Science, Technion Israel Institute of Technology)

Abstract

Bacterial populations diversify during infection into distinct subpopulations that coexist within the human body. Yet, it is unknown to what extent subpopulations adapt to location-specific selective pressures as they migrate and evolve across space. Here we identify bacterial genes under local and global selection by testing for spatial co-occurrence of adaptive mutations. We sequence 552 genomes of the pathogen Stenotrophomonas maltophilia across 23 sites of the lungs from a patient with cystic fibrosis. We show that although genetically close isolates colocalize in space, distant lineages with distinct phenotypes separated by adaptive mutations spread throughout the lung, suggesting global selective pressures. Yet, for one gene (a distant homologue of the merC gene implicated in metal resistance), mutations arising independently in two lineages colocalize in space, providing evidence for location-specific selection. Our work presents a general framework for understanding how selection acts upon a pathogen that colonizes and evolves across the complex environment of the human body.

Suggested Citation

  • Hattie Chung & Tami D. Lieberman & Sara O. Vargas & Kelly B. Flett & Alexander J. McAdam & Gregory P. Priebe & Roy Kishony, 2017. "Global and local selection acting on the pathogen Stenotrophomonas maltophilia in the human lung," Nature Communications, Nature, vol. 8(1), pages 1-7, April.
    • Handle: RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_ncomms14078
    DOI: 10.1038/ncomms14078
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    Cited by:

    1. Manoshi S. Datta & Idan Yelin & Ori Hochwald & Imad Kassis & Liron Borenstein-Levin & Amir Kugelman & Roy Kishony, 2021. "Rapid methicillin resistance diversification in Staphylococcus epidermidis colonizing human neonates," Nature Communications, Nature, vol. 12(1), pages 1-10, December.
    2. Hattie Chung & Christina Merakou & Matthew M. Schaefers & Kelly B. Flett & Sarah Martini & Roger Lu & Jennifer A. Blumenthal & Shanice S. Webster & Ashley R. Cross & Roy Al Ahmar & Erin Halpin & Miche, 2022. "Rapid expansion and extinction of antibiotic resistance mutations during treatment of acute bacterial respiratory infections," Nature Communications, Nature, vol. 13(1), pages 1-10, December.
    3. Rachel M. Wheatley & Julio Diaz Caballero & Thomas E. Schalk & Fien H. R. Winter & Liam P. Shaw & Natalia Kapel & Claudia Recanatini & Leen Timbermont & Jan Kluytmans & Mark Esser & Alicia Lacoma & Cr, 2022. "Gut to lung translocation and antibiotic mediated selection shape the dynamics of Pseudomonas aeruginosa in an ICU patient," Nature Communications, Nature, vol. 13(1), pages 1-11, December.

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