Bacterial filamentation is an in vivo mechanism for cell-to-cell spreading

Intracellular pathogens are challenged with limited space and resources while replicating in a single host cell. Mechanisms for direct invasion of neighboring host cells have been discovered in cell culture, but we lack an understanding of how bacteria directly spread from cell-to-cell in vivo. Here, we describe the discovery of a bacterial species that uses filamentation as an in vivo mechanism for intracellular spreading between the intestinal epithelial cells of its host, the rhabditid nematode Oscheius tipulae . In vitro and in vivo filamentation by this bacterium, Bordetella atropi , requires a highly conserved nutrient-sensing pathway used by divergent bacteria to detect rich conditions and inhibit the divisome. Thus, B. atropi uses a distinct mechanism for cell-to-cell spreading by coopting a pathway that normally regulates bacterial cell size to trigger filamentation inside host cells.