Distinct immunity protein families mediate compartment-specific neutralisation of a bacterial toxin.

Staphylococcus aureus utilises a type VII secretion system (T7SS) to secrete antibacterial toxins that target competitor bacteria. EsxX is a T7SS substrate protein secreted by ST398 strains that has an LXG domain at its N-terminus. Here we show that the EsxX C-terminus is a membrane-depolarising toxin with a glycine zipper motif. EsxX is profoundly toxic to bacteria, displaying toxicity from both cytoplasmic and extracellular compartments. A pair of polytopic membrane proteins, ExiCD, protect cells from intoxication by extracellular EsxX. By contrast, a distinct soluble heterodimer, ExiAB, neutralises cytoplasmic EsxX by sequestration of its glycine zipper motif in a binding groove on ExiB. The exiA-exiB gene pair co-occur in staphylococcal genomes with esxX, invoking a model whereby ExiAB protects EsxX-producing cells from self-toxicity prior to EsxX secretion. By contrast ExiCD is encoded by both EsxX producers and in antitoxin islands of competitor strains that do not encode EsxX, consistent with providing immunity against the secreted form of the toxin. This work defines a new class of antibacterial toxin requiring two distinct types of immunity protein which follow different phylogenetic distributions.