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Bacterial microcompartments and energy metabolism drive gut colonization by Bilophila wadsworthia

Author

Listed:
  • Lizbeth Sayavedra

    (Norwich Research Park
    Norwich Research Park)

  • Muhammad Yasir

    (Norwich Research Park
    Norwich Research Park)

  • Andrew Goldson

    (Norwich Research Park
    Norwich Research Park)

  • Arlaine Brion

    (Norwich Research Park
    Norwich Research Park)

  • Gwenaelle Le Gall

    (Norwich Research Park
    Norwich Research Park)

  • Mar Moreno-Gonzalez

    (Norwich Research Park
    Norwich Research Park)

  • Annalisa Altera

    (Norwich Research Park
    Norwich Research Park)

  • Michael D. Paxhia

    (Norwich Research Park
    Norwich Research Park)

  • Martin Warren

    (Norwich Research Park
    Norwich Research Park
    Norwich Research Park
    University of Kent, Giles Ln)

  • George M. Savva

    (Norwich Research Park
    Norwich Research Park)

  • A. Keith Turner

    (Norwich Research Park
    Norwich Research Park)

  • Naiara Beraza

    (Norwich Research Park
    Norwich Research Park)

  • Arjan Narbad

    (Norwich Research Park
    Norwich Research Park)

Abstract

High-fat diets reshape gut microbiota composition and promote the expansion of Bilophila wadsworthia, a sulfidogenic bacterium linked to inflammation and gut barrier dysfunction. The genetic basis for its colonisation and physiological effects remain poorly understood. Here, we show that B. wadsworthia colonises the gut of germ-free male mice fed a high-fat diet by relying on genes involved in microcompartment formation and anaerobic energy metabolism. Using genome-wide transposon mutagenesis, metatranscriptomics and metabolomics, we identify 34 genes essential for gut colonisation, including two clusters encoding a bacterial microcompartment (BMC), and a NADH dehydrogenase (hdrABC-flxABCD) complex. These systems enable B. wadsworthia to metabolise taurine and isethionate, producing H2S, acetate, and ethanol. We further demonstrate that B. wadsworthia can produce and consume ethanol depending on the available electron donors. While B. wadsworthia reached higher abundance and H₂S production in the absence of the simplified microbiota, its co-colonisation with the defined microbial consortium exacerbated host effects, including increased gut permeability, slightly elevated liver ethanol concentrations, and hepatic macrophage infiltration. Our findings reveal how microbial interactions and metabolic flexibility -including using alternative energy sources such as formate- rather than H₂S alone, shape B. wadsworthia’s impact on host physiology, with implications for understanding diet-driven microbiome–host interactions.

Suggested Citation

  • Lizbeth Sayavedra & Muhammad Yasir & Andrew Goldson & Arlaine Brion & Gwenaelle Le Gall & Mar Moreno-Gonzalez & Annalisa Altera & Michael D. Paxhia & Martin Warren & George M. Savva & A. Keith Turner , 2025. "Bacterial microcompartments and energy metabolism drive gut colonization by Bilophila wadsworthia," Nature Communications, Nature, vol. 16(1), pages 1-20, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-60180-y
    DOI: 10.1038/s41467-025-60180-y
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    References listed on IDEAS

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    2. Suzanne Devkota & Yunwei Wang & Mark W. Musch & Vanessa Leone & Hannah Fehlner-Peach & Anuradha Nadimpalli & Dionysios A. Antonopoulos & Bana Jabri & Eugene B. Chang, 2012. "Dietary-fat-induced taurocholic acid promotes pathobiont expansion and colitis in Il10−/− mice," Nature, Nature, vol. 487(7405), pages 104-108, July.
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