The RtxA cytotoxin, a member of the RTX (Repeats in ToXin) family of pore-forming toxins, is the primary virulence factor of the paediatric facultative pathogen Kingella kingae. Although structure-function studies of RTX toxins have defined their characteristic domains and features, the exact membrane topology of RTX toxins remains unknown. Here, we used labelling of cell-bound RtxA with a membrane-impermeable, lysine-reactive reagent and subsequent detection of the labelled lysine residues by mass spectrometry, which revealed that most of the membrane-bound toxin is localised extracellularly. A trypsin protection assay with cell-bound RtxA demonstrated that five of seven transmembrane α-helices, predicted by various algorithms within the N-terminal half of the molecule, are irreversibly embedded in the membrane. Structure-function analysis showed that these α-helices, four of which are arranged as two pairs of back-to-back helices, are essential for the formation of an ion-conducting membrane pore. In contrast, the C-terminal half of RtxA is required for the interaction with the cell surface and for the irreversible insertion of the toxin into the membrane via acyl chains covalently linked to the molecule. These findings advance our understanding of the structure-function relationships of RtxA and enable us to propose a membrane topology model of the toxin.

Institute of Biotechnology of the Czech Academy of Sciences Vestec Czech Republic

Institute of Microbiology of the Czech Academy of Sciences Prague Czech Republic

Institute of Microbiology of the Czech Academy of Sciences Prague Czech Republic; Faculty of Science Charles University Prague Czech Republic

Institute of Microbiology of the Czech Academy of Sciences Prague Czech Republic; University of Chemistry and Technology Prague Prague Czech Republic

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Kingella kingae cytotoxin RtxA induces an innate immune response in oral epithelial cells