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Bacteriophages inhibit and evade cGAS-like immune function in bacteria

Erin Huiting, Xueli Cao, Jie Ren, Januka S. Athukoralage, Zhaorong Luo, Sukrit Silas, Na An, Héloïse Carion, Yu Zhou, James S. Fraser, Yue Feng, Joseph Bondy‐Denomy

2023Cell134 citationsDOIOpen Access PDF

Abstract

A fundamental strategy of eukaryotic antiviral immunity involves the cGAS enzyme, which synthesizes 2',3'-cGAMP and activates the effector STING. Diverse bacteria contain cGAS-like enzymes that produce cyclic oligonucleotides and induce anti-phage activity, known as CBASS. However, this activity has only been demonstrated through heterologous expression. Whether bacteria harboring CBASS antagonize and co-evolve with phages is unknown. Here, we identified an endogenous cGAS-like enzyme in Pseudomonas aeruginosa that generates 3',3'-cGAMP during phage infection, signals to a phospholipase effector, and limits phage replication. In response, phages express an anti-CBASS protein ("Acb2") that forms a hexamer with three 3',3'-cGAMP molecules and reduces phospholipase activity. Acb2 also binds to molecules produced by other bacterial cGAS-like enzymes (3',3'-cUU/UA/UG/AA) and mammalian cGAS (2',3'-cGAMP), suggesting broad inhibition of cGAS-based immunity. Upon Acb2 deletion, CBASS blocks lytic phage replication and lysogenic induction, but rare phages evade CBASS through major capsid gene mutations. Altogether, we demonstrate endogenous CBASS anti-phage function and strategies of CBASS inhibition and evasion.

Topics & Concepts

BiologyBacteriaImmune systemFunction (biology)BacteriophageMicrobiologyVirologyCell biologyGeneticsEscherichia coliGeneinterferon and immune responsesBacteriophages and microbial interactionsVibrio bacteria research studies
Bacteriophages inhibit and evade cGAS-like immune function in bacteria | Litcius