Control of bacterial immune signaling by a WYL domain transcription factor

Bacteria use diverse immune systems to defend themselves from ubiquitous viruses termed bacteriophages (phages). Many anti-phage systems function by abortive infection to kill a phage-infected cell, raising the question of how they are regulated to avoid cell killing outside the context of infection. Here, we identify a transcription factor associated with the widespread CBASS bacterial immune system, that we term CapW. CapW forms a homodimer and binds a palindromic DNA sequence in the CBASS promoter region. Two crystal structures of CapW suggest that the protein switches from an unliganded, DNA binding-competent state to a ligand-bound state unable to bind DNA. We show that CapW strongly represses CBASS gene expression in uninfected cells, and that phage infection causes increased CBASS expression in a CapW-dependent manner. Unexpectedly, this CapW-dependent increase in CBASS expression is not required for robust anti-phage activity, suggesting that CapW may mediate CBASS activation and cell death in response to a signal other than phage infection. Our results parallel concurrent reports on the structure and activity of BrxR, a transcription factor associated with the BREX anti-phage system, suggesting that CapW and BrxR are members of a family of universal defense signaling proteins.

Automated summary

Bacteria utilize diverse immune systems to defend against viruses, with the transcription factor CapW associated with regulating the CBASS bacterial immune system response. CapW represses CBASS gene expression in uninfected cells and its activation is not necessary for strong anti-phage activity, suggesting it may play a role in response to signals other than phage infection. CapW is part of a family of universal defense signaling proteins, similar to the BrxR transcription factor associated with the BREX anti-phage system.