Synergistic anti-phage activity of bacterial defence systems

ABSTRACT Bacterial defence against phage predation involves diverse defence systems acting both individually and concurrently, yet their interactions remain poorly understood. We investigated >100 defence systems in 42,925 bacterial genomes and identified numerous instances of their non-random co-occurrence and mutual exclusion. For several pairs of defence systems significantly co-occurring in Escherichia coli strains, we demonstrate synergistic anti-phage activity, including tmn synergising with defence systems containing sensory switch ATPase domains. Some of the defence system pairs that are mutually exclusive in E. coli significantly co-occur in other taxa, and one tested mutually exclusive pair showed synergy. These findings demonstrate compatibility and synergy between defence systems, allowing bacteria to adopt flexible strategies for phage defence, driven by specific environmental pressures. The evolution of bacterial immune repertoires seems to be shaped largely by selection for resistance to host-specific phages rather than by negative epistasis.