Yersinia pseudotuberculosis Effector YopJ Subverts the Nod2/RICK/TAK1 Pathway and Activates Caspase-1 to Induce Intestinal Barrier Dysfunction

authors

  • Meinzer Ulrich
  • Barreau Frédérick
  • Esmiol-Welterlin Sophie
  • Jung Camille
  • Villard Claude
  • Leger Thibaut
  • Ben-Mkaddem Sanah
  • Berrebi Dominique
  • Dussaillant Monique M.
  • Alnabhani Ziad
  • Roy Maryline
  • Bonacorsi Stéphane
  • Wolf-Watz Hans
  • Perroy Julie
  • Ollendorff Vincent
  • Hugot Jean-Pierre

abstract

Yersinia pseudotuberculosis is an enteropathogenic bacteria that disrupts the intestinal barrier and invades its host through gut-associated lymphoid tissue and Peyer's patches (PP). We show that the Y. pseudotuberculosis effector YopJ induces intestinal barrier dysfunction by subverting signaling of the innate immune receptor Nod2, a phenotype that can be reversed by pretreating with the Nod2 ligand muramyl-dipeptide. YopJ, but not the catalytically inactive mutant YopJ(C172A), acetylates critical sites in the activation loops of the RICK and TAK1 kinases, which are central mediators of Nod2 signaling, and decreases the affinity of Nod2 for RICK. Concomitantly, Nod2 interacts with and activates caspase-1, resulting in increased levels of IL-1β. Finally, IL-1β within PP plays an essential role in inducing intestinal barrier dysfunction. Thus, YopJ alters intestinal permeability and promotes the dissemination of Yersinia as well as commensal bacteria by exploiting the mucosal inflammatory response.

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