Reversible conjugation of a CBASS nucleotide cyclase regulates immune response to phage infection

Antiviral defence systems build the prokaryotic immune system and their proper regulation is vital for survival and fitness. While it is important that they are readily available in case of infection, they need to be tightly controlled to prevent activation of an unnecessary cellular response. Here we describe how the bacterial cyclic oligonucleotide-based antiphage signalling system (CBASS) uses its intrinsic protein modification system to regulate the nucleotide cyclase. By integrating a Type II CBASS system from Bacillus cereus into the cognate host Bacillus subtilis , we show that the Cap2 protein conjugates the cyclase exclusively to the conserved phage shock protein A (PspA) in the absence of phage. This cyclase-PspA conjugation is reversed after infection by the isopeptidase Cap3. Finally, we propose a model in which the cyclase is held in an inactive state by conjugation to PspA in the absence of phage and that this conjugation is released upon infection, priming the cyclase for activation. ### Competing Interest Statement The authors have declared no competing interest.