Arginine-143 of Yersinia enterocolitica YopP Crucially Determines Isotype-Related NF-κB Suppression and Apoptosis Induction in Macrophages

Abstract

ABSTRACT Pathogenic Yersinia spp. counteract host defense mechanisms by modulating the cellular signal relay in response to infection. Subversion of the antiapoptotic NF-κB signaling pathway by the Yersinia enterocolitica virulence protein YopP crucially determines the induction of apoptosis in Yersinia -infected macrophages. Here, we analyzed a panel of pathogenic, phylogenetically distinct Y. enterocolitica serotypes for their abilities to trigger macrophage apoptosis. Y. enterocolitica from the highly pathogenic serogroup O8 was substantially more effective in apoptosis induction than Yersinia from the serogroups O3 and O9. Complementation of yopP -knockout mutants revealed that this effect was specifically conferred by the serogroup O8 YopP. The amino acid sequences of YopPO8 and YopPO9 share 94% identity, and both YopP isotypes were found to interact with the NF-κB-activating kinase IKKβ in macrophages. However, selectively, YopPO8 mediated efficient inhibition of IKKβ activities, which led to substantial suppression of NF-κB activation. To localize the YopPO8-related effector domain, we interchanged stretches of amino acids and single amino acid residues between YopPO8 and YopPO9. Functional characterization of the resulting mutants revealed a major role of the arginine-143 residue in determining the inhibitory impact of YopP on IKKβ activity and survival of macrophages.