Bacteria deliver a microtubule-binding protein into mammalian cells to promote colonization

Pathogenic Bordetella bacteria infect the ciliated respiratory epithelia of mammalian and avian hosts. Several bacterial proteins mediate host cell adhesion, but filamentous hemagglutinin (FhaB) is a principal adhesin because mutants lacking this protein exhibit profound colonization defects. Here, we show that FhaB carries a C-terminal microtubule-binding domain (FhaB-CT), which is translocated into the host-cell cytoplasm to promote bacterial colonization. Cryogenic electron microscopy of microtubule-bound FhaB-CT shows that the domain binds primarily to α-tubulin through a network of polar interactions. Live-cell microscopy of infected tracheal explants reveals that FhaB-CT delivery is required for Bordetella to occupy a niche at the base of cilia on airway epithelia. Finally, we demonstrate that the microtubule-binding domain is required for long-term colonization of the mouse nasal cavity by B. pertussis . These observations suggest that the FhaB-CT domain is delivered into motile cilia, where it interacts with axonemal microtubules. We propose that Bordetella initially adhere to the tips of cilia, then deploy multiple FhaB adhesin molecules to migrate to the base of the cilial forest. This mechanism enables Bordetella to resist removal by the mucociliary ‘escalator’ that clears the respiratory tract of microbes and debris.