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Structural properties of a haemophore facilitate targeted elimination of the pathogen Porphyromonas gingivalis

Author

Listed:
  • Jin-Long Gao

    (The University of Sydney
    Westmead Centre for Oral Health)

  • Ann H. Kwan

    (School of Life and Environmental Sciences and Sydney Nano, The University of Sydney)

  • Anthony Yammine

    (School of Life and Environmental Sciences and Sydney Nano, The University of Sydney)

  • Xiaoyan Zhou

    (The University of Sydney)

  • Jill Trewhella

    (School of Life and Environmental Sciences and Sydney Nano, The University of Sydney)

  • Barbara M. Hugrass

    (School of Medicine, The University of Tasmania)

  • Daniel A. T. Collins

    (School of Medicine, The University of Tasmania)

  • James Horne

    (Central Science Laboratory, The University of Tasmania)

  • Ping Ye

    (Westmead Centre for Oral Health)

  • Derek Harty

    (Westmead Centre for Oral Health)

  • Ky-Anh Nguyen

    (The University of Sydney
    Westmead Centre for Oral Health)

  • David A. Gell

    (School of Medicine, The University of Tasmania)

  • Neil Hunter

    (The University of Sydney
    Westmead Centre for Oral Health)

Abstract

Porphyromonas gingivalis is a keystone bacterial pathogen of chronic periodontitis. P. gingivalis is unable to synthesise the porphyrin macrocycle and relies on exogenous porphyrin, including haem or haem biosynthesis intermediates from host sources. We show that under the iron-limited conditions prevailing in tissue environments, P. gingivalis expresses a haemophore-like protein, HusA, to mediate the uptake of essential porphyrin and support pathogen survival within epithelial cells. The structure of HusA, together with titration studies, mutagenesis and in silico docking, show that haem binds in a hydrophobic groove on the α-helical structure without the typical iron coordination seen in other haemophores. This mode of interaction allows HusA to bind to a variety of abiotic and metal-free porphyrins with higher affinities than to haem. We exploit this unusual porphyrin-binding activity of HusA to target a prototypic deuteroporphyrin-metronidazole conjugate with restricted antimicrobial specificity in a Trojan horse strategy that effectively kills intracellular P. gingivalis.

Suggested Citation

  • Jin-Long Gao & Ann H. Kwan & Anthony Yammine & Xiaoyan Zhou & Jill Trewhella & Barbara M. Hugrass & Daniel A. T. Collins & James Horne & Ping Ye & Derek Harty & Ky-Anh Nguyen & David A. Gell & Neil Hu, 2018. "Structural properties of a haemophore facilitate targeted elimination of the pathogen Porphyromonas gingivalis," Nature Communications, Nature, vol. 9(1), pages 1-13, December.
    • Handle: RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-06470-0
    DOI: 10.1038/s41467-018-06470-0
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    Cited by:

    1. Thomas J. Bateman & Megha Shah & Timothy Pham Ho & Hyejin Esther Shin & Chuxi Pan & Greg Harris & Jamie E. Fegan & Epshita A. Islam & Sang Kyun Ahn & Yogesh Hooda & Scott D. Gray-Owen & Wangxue Chen &, 2021. "A Slam-dependent hemophore contributes to heme acquisition in the bacterial pathogen Acinetobacter baumannii," Nature Communications, Nature, vol. 12(1), pages 1-13, December.

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