TIR signaling activates caspase-like immunity in bacteria

Abstract Proteases of the caspase family, as well as Toll/Interleukin-1 Receptor (TIR)-domain proteins, have central roles in innate immunity and regulated cell death in humans. In this study we describe a bacterial immune system comprising both a caspase-like protease and a TIR-domain protein. We found that the TIR protein, once it recognizes phage invasion, produces the previously unknown immune signaling molecule ADP-cyclo[N7:1′′]-ribose (N7-cADPR). This molecule specifically activates the bacterial caspase-like protease which then indiscriminately degrades cellular proteins to halt phage replication. The TIR-caspase defense system, which we denote as type IV Thoeris, is abundant in bacteria and efficiently protects against phage propagation. Our study highlights the diversity of TIR-produced immune signaling molecules and demonstrates that cell death regulated by proteases of the caspase family is an ancient mechanism of innate immunity.