eLife (Jun 2015)

An internal thioester in a pathogen surface protein mediates covalent host binding

  • Miriam Walden,
  • John M Edwards,
  • Aleksandra M Dziewulska,
  • Rene Bergmann,
  • Gerhard Saalbach,
  • Su-Yin Kan,
  • Ona K Miller,
  • Miriam Weckener,
  • Rosemary J Jackson,
  • Sally L Shirran,
  • Catherine H Botting,
  • Gordon J Florence,
  • Manfred Rohde,
  • Mark J Banfield,
  • Ulrich Schwarz-Linek

DOI
https://doi.org/10.7554/eLife.06638
Journal volume & issue
Vol. 4

Abstract

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To cause disease and persist in a host, pathogenic and commensal microbes must adhere to tissues. Colonization and infection depend on specific molecular interactions at the host-microbe interface that involve microbial surface proteins, or adhesins. To date, adhesins are only known to bind to host receptors non-covalently. Here we show that the streptococcal surface protein SfbI mediates covalent interaction with the host protein fibrinogen using an unusual internal thioester bond as a ‘chemical harpoon’. This cross-linking reaction allows bacterial attachment to fibrin and SfbI binding to human cells in a model of inflammation. Thioester-containing domains are unexpectedly prevalent in Gram-positive bacteria, including many clinically relevant pathogens. Our findings support bacterial-encoded covalent binding as a new molecular principle in host-microbe interactions. This represents an as yet unexploited target to treat bacterial infection and may also offer novel opportunities for engineering beneficial interactions.

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