Proximity biotinylation at the host-Shigellainterface reveals UFMylation as an antibacterial pathway

Host cells contest invasion by intracellular bacterial pathogens with multiple strategies that recognise and / or damage the bacterial surface. To identify novel host defence factors targeted to intracellular bacteria, we developed a versatile proximity biotinylation approach coupled to quantitative mass spectrometry that maps the host-bacterial interface during infection. Using this method, we discovered that intracellularShigellaandSalmonellabecome targeted by UFM1-protein ligase 1 (UFL1), an E3 ligase that catalyses the covalent attachment of Ubiquitin-fold modifier 1 (UFM1) to target substrates in a process called UFMylation. We show thatShigellaantagonises UFMylation in a dual manner: first, using its lipopolysaccharide (LPS) to shield from UFL1 recruitment; second, preventing UFM1 decoration by the bacterial effector IpaH9.8. Absence of UFMylation leads to an increase of bacterial burden in both human cells and zebrafish larvae, suggesting that UFMylation is a highly conserved antibacterial pathway. Contrary to canonical ubiquitylation, the protective role of UFMylation is independent of autophagy. Altogether, our proximity mapping of the host-bacterial interface identifies UFMylation as an ancient antibacterial pathway and holds great promise to reveal other cell-autonomous immunity mechanisms.