Arbitrium communication controls phage lysogeny through non-lethal modulation of a host toxin-antitoxin defence system.

Polina Guler, Shira Omer Bendori, Tom Borenstein, Nitzan Aframian, Amit Kessel, Avigdor Eldar

Nature microbiology 2024 Jan

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Temperate Bacillus phages often utilize arbitrium communication to control lysis/lysogeny decisions, but the mechanisms by which this control is exerted remains largely unknown. Here we find that the arbitrium system of Bacillus subtilis phage ϕ3T modulates the host-encoded MazEF toxin-antitoxin system to this aim. Upon infection, the MazF ribonuclease is activated by three phage genes. At low arbitrium signal concentrations, MazF is inactivated by two phage-encoded MazE homologues: the arbitrium-controlled AimX and the later-expressed YosL proteins. At high signal, MazF remains active, promoting lysogeny without harming the bacterial host. MazF cleavage sites are enriched on transcripts of phage lytic genes but absent from the phage repressor in ϕ3T and other Spβ-like phages. Combined with low activation levels of MazF during infections, this pattern explains the phage-specific effect. Our results show how a bacterial toxin-antitoxin system has been co-opted by a phage to control lysis/lysogeny decisions without compromising host viability. © 2024. The Author(s), under exclusive licence to Springer Nature Limited.

Citation

Polina Guler, Shira Omer Bendori, Tom Borenstein, Nitzan Aframian, Amit Kessel, Avigdor Eldar. Arbitrium communication controls phage lysogeny through non-lethal modulation of a host toxin-antitoxin defence system. Nature microbiology. 2024 Jan;9(1):150-160