Segmented filamentous bacteria undergo a structural transition at their adhesive tip during unicellular to filament development

Segmented filamentous bacteria (SFB) are intestinal commensals that promote immune system development and pathogen protection through intimate attachment to the ileal epithelium. Attachment occurs via the tip of unicellular teardrop-shaped SFB, called intracellular offsprings (IOs), before outgrowth into filaments. To characterize this critical stage of the SFB life-cycle, we imaged SFB using cryo-electron microscopy and tomography. IOs were surrounded by a repetitive surface (S)-layer that became replaced by disordered hair-like structures uniquely at the tip. Upon outgrowth into filaments, the S-layer was exchanged for a morphologically distinct repetitive hair- like layer. The bacterial structures and morphological transition were conserved across SFB from mouse and rat origin, while growth of mouse-SFB under non-attachment conditions in a heterologous host affected the SFB tip length and relative proportion of the tip stages. Moreover, the filament tip displayed surface exposure of the major Th17 antigen, a ubiquitous cell wall protein, underscoring the unique properties of the adhesive tip. This study identifies a novel IO- specific S-layer and reveals a conserved developmental transition of the SFB tip surface including the transient appearance of structures consistent in location and timing with being involved in host cell attachment.