Phages reconstitute NAD+to counter bacterial immunity

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Abstract

Bacteria defend against phage infection via a variety of antiphage defense systems. Many defense systems were recently shown to deplete cellular nicotinamide adenine dinucleotide (NAD + ) in response to infection, by breaking NAD + to ADP-ribose (ADPR) and nicotinamide. It was demonstrated that NAD + depletion during infection deprives the phage from this essential molecule and impedes phage replication. Here we show that a substantial fraction of phages possess enzymatic pathways allowing reconstitution of NAD + from its degradation products in infected cells. We describe NAD + reconstitution pathway 1 (NARP1), a two-step pathway in which one enzyme phosphorylates ADPR to generate ADPR-pyrophosphate (ADPR-PP), and the second enzyme conjugates ADPR- PP and nicotinamide to generate NAD + . Phages encoding the NARP1 pathway can overcome a diverse set of defense systems, including Thoeris, DSR1, DSR2, SIR2-HerA, and SEFIR, all of which deplete NAD + as part of their defensive mechanism. Phylogenetic analyses show that NARP1 is primarily encoded on phage genomes, suggesting a phage- specific function in countering bacterial defenses. A second pathway, NARP2, allows phages to overcome bacterial defenses by building NAD + via metabolites different than ADPR-PP. Our findings report a unique immune evasion strategy where viruses rebuild molecules depleted by defense systems, thus overcoming host immunity.

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europepmc
last seen: 2026-05-20T01:45:00.602351+00:00
unpaywall
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License: CC-BY-NC-ND-4.0