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Activation of bacterial programmed cell death by phage inhibitors of host immunity

Activation of bacterial programmed cell death by phage inhibitors of host immunity
Activation of bacterial programmed cell death by phage inhibitors of host immunity

Bacterial and archaeal viruses are replete with diverse uncharacterized accessory genes (AGs), which likely interface with host processes. However, large-scale discovery of virus AG functions remains challenging. Here, we developed an integrated computational and experimental discovery platform to identify viral AGs and assign functions. We show that multiple AGs activate unexpected programmed cell death (PCD) activity of distinct restriction-modification (R-M) systems. We describe an exapted type I R-M decoy that kills the host upon sensing several different anti-defense AGs and a self-guarded type III R-M system that restricts phages but also induces PCD when bound by anti-R-M proteins. Other phage counter-defense genes additionally activate non-R-M-based abortive infection systems encoded by prophages. This defense strategy creates a conundrum: lose AGs and be exposed to immunity or keep AGs and trigger PCD. Strategies employed by viruses to avoid this double bind could be an important factor in virus evolution that remains to be explored.

abortive immunity, accessory genes, bacteria, comparative genomics, immune inhibitors, phage, phage defense, restriction-modification
1097-2765
1838-1851.E10
Silas, Sukrit
08697653-3817-4591-a216-e32cef794945
Carion, Héloïse
559c084b-1eb6-4fce-99a8-ecda8218ac4e
Makarova, Kira S.
4072d5c9-9927-454a-8938-e6b52f659ed9
Laderman, Eric S.
a49aac93-36ed-485a-be65-9b3126cf7fdb
Todeschini, Thomas
882a8867-6cc5-4f5c-a8e3-16d92c7010b4
Kumar, Pradeep
0e9dd5e4-f5f1-4f62-b6d9-f1164eb93799
Bocek, Michael
6117786b-2ca4-4684-a7e4-349c6f7c7339
Nobrega, Franklin l.
6532795d-88a4-4f05-9b26-6af5b8f21a0d
Koonin, Eugene V.
50994a87-40cf-4509-8f39-e2f5975e649b
Bondy-Denomy, Joseph
f11948ce-b612-4f84-8aeb-86b0a70563b3
Silas, Sukrit
08697653-3817-4591-a216-e32cef794945
Carion, Héloïse
559c084b-1eb6-4fce-99a8-ecda8218ac4e
Makarova, Kira S.
4072d5c9-9927-454a-8938-e6b52f659ed9
Laderman, Eric S.
a49aac93-36ed-485a-be65-9b3126cf7fdb
Todeschini, Thomas
882a8867-6cc5-4f5c-a8e3-16d92c7010b4
Kumar, Pradeep
0e9dd5e4-f5f1-4f62-b6d9-f1164eb93799
Bocek, Michael
6117786b-2ca4-4684-a7e4-349c6f7c7339
Nobrega, Franklin l.
6532795d-88a4-4f05-9b26-6af5b8f21a0d
Koonin, Eugene V.
50994a87-40cf-4509-8f39-e2f5975e649b
Bondy-Denomy, Joseph
f11948ce-b612-4f84-8aeb-86b0a70563b3

Silas, Sukrit, Carion, Héloïse, Makarova, Kira S., Laderman, Eric S., Todeschini, Thomas, Kumar, Pradeep, Bocek, Michael, Nobrega, Franklin l., Koonin, Eugene V. and Bondy-Denomy, Joseph (2025) Activation of bacterial programmed cell death by phage inhibitors of host immunity. Molecular Cell, 85 (9), 1838-1851.E10. (doi:10.1016/j.molcel.2025.04.010).

Record type: Article

Abstract

Bacterial and archaeal viruses are replete with diverse uncharacterized accessory genes (AGs), which likely interface with host processes. However, large-scale discovery of virus AG functions remains challenging. Here, we developed an integrated computational and experimental discovery platform to identify viral AGs and assign functions. We show that multiple AGs activate unexpected programmed cell death (PCD) activity of distinct restriction-modification (R-M) systems. We describe an exapted type I R-M decoy that kills the host upon sensing several different anti-defense AGs and a self-guarded type III R-M system that restricts phages but also induces PCD when bound by anti-R-M proteins. Other phage counter-defense genes additionally activate non-R-M-based abortive infection systems encoded by prophages. This defense strategy creates a conundrum: lose AGs and be exposed to immunity or keep AGs and trigger PCD. Strategies employed by viruses to avoid this double bind could be an important factor in virus evolution that remains to be explored.

Text
MOLCEL_9557 - Accepted Manuscript
Restricted to Repository staff only until 1 May 2026.
Available under License Creative Commons Attribution Non-commercial No Derivatives.
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More information

Accepted/In Press date: 7 April 2025
Published date: 1 May 2025
Keywords: abortive immunity, accessory genes, bacteria, comparative genomics, immune inhibitors, phage, phage defense, restriction-modification
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Identifiers

Local EPrints ID: 502977
URI: http://eprints.soton.ac.uk/id/eprint/502977
DOI: doi:10.1016/j.molcel.2025.04.010
ISSN: 1097-2765
PURE UUID: 7d3893b4-f16c-43e2-a4c1-0f51b2f6a101
ORCID for Thomas Todeschini: ORCID iD orcid.org/0009-0000-1648-8029
ORCID for Franklin l. Nobrega: ORCID iD orcid.org/0000-0002-8238-1083

Catalogue record

Date deposited: 15 Jul 2025 16:52
Last modified: 16 Jul 2025 02:03

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Contributors

Author: Sukrit Silas
Author: Héloïse Carion
Author: Kira S. Makarova
Author: Eric S. Laderman
Author: Thomas Todeschini ORCID iD
Author: Pradeep Kumar
Author: Michael Bocek
Author: Franklin l. Nobrega ORCID iD
Author: Eugene V. Koonin
Author: Joseph Bondy-Denomy

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