Bacterial homologs of innate eukaryotic antiviral defenses with anti-phage activity highlight shared evolutionary roots of viral defenses

Publication date

2024-08-14

Authors

van den Berg, Daan F.
Costa, Ana Rita
Esser, Jelger Q.
Stanciu, Ilinka
Geissler, Jasper Q.
Zoumaro-Djayoon, Adja Damba
Haas, Pieter Jan AORCID 0000-0002-1127-095X
Brouns, Stan J.J.

Editors

Advisors

Supervisors

Document Type

Article

Collections

Open Access logo

License

taverne

Abstract

Prokaryotes have evolved a multitude of defense systems to protect against phage predation. Some of these resemble eukaryotic genes involved in antiviral responses. Here, we set out to systematically project the current knowledge of eukaryotic-like antiviral defense systems onto prokaryotic genomes, using Pseudomonas aeruginosa as a model organism. Searching for phage defense systems related to innate antiviral genes from vertebrates and plants, we uncovered over 450 candidates. We validated six of these phage defense systems, including factors preventing viral attachment, R-loop-acting enzymes, the inflammasome, ubiquitin pathway, and pathogen recognition signaling. Collectively, these defense systems support the concept of deep evolutionary links and shared antiviral mechanisms between prokaryotes and eukaryotes.

Keywords

6A-MBL, bNACHT Erebus, bNACHT Hypnos, eukaryotic antiviral homologs, Hermes, NucS, phage defense systems, Prometheus, Pseudomonas aeruginosa, Thoeris type III, Taverne, Parasitology, Microbiology, Virology

Citation

van den Berg, D F, Costa, A R, Esser, J Q, Stanciu, I, Geissler, J Q, Zoumaro-Djayoon, A D, Haas, P J & Brouns, S J J 2024, 'Bacterial homologs of innate eukaryotic antiviral defenses with anti-phage activity highlight shared evolutionary roots of viral defenses', Cell Host and Microbe, vol. 32, no. 8, pp. 1427-1443.e8. https://doi.org/10.1016/j.chom.2024.07.007