# Viral RNA pUGylation promotes antiviral immunity in C. elegans

**Authors:** David D. Lowe, Aditi Shukla, Scott G. Kennedy

PMC · DOI: 10.1128/jvi.01169-25 · 2025-10-30

## TL;DR

C. elegans uses a process called pUGylation to defend against viruses by marking viral RNA for destruction.

## Contribution

The study reveals that pUGylation is a novel mechanism for antiviral immunity in C. elegans.

## Key findings

- RDE-3 adds pUG tails to viral RNAs during Orsay virus infection, enabling antiviral siRNA production.
- MUT-15 is essential for viral pUGylation by linking RDE-3 and RDE-8, ensuring efficient immunity.
- pUGylation helps C. elegans neutralize both transposons and viruses, protecting genomic integrity.

## Abstract

RNA interference (RNAi) is a component of the innate immune systems of many eukaryotes, including C. elegans. During RNAi in C. elegans, the nucleotidyltransferase RDE-3 modifies the 3′ termini of mRNAs with polyUG (pUG) tails, which recruit RNA-dependent RNA polymerase (RdRP) enzymes that drive gene silencing by synthesizing antisense small interfering (si)RNAs. During normal growth and development, RDE-3 pUGylates transposon RNAs to silence transposons and protect genomic integrity. How C. elegans identifies specific RNAs for pUGylation and whether the pUGylation system is used for other biological purposes are not yet known. Here, we show that pUGylation contributes to antiviral immunity in C. elegans: During infection of C. elegans with Orsay virus, RDE-3 adds pUG tails to viral RNAs, which converts these RNAs into templates for RdRP-based antiviral siRNA production, thereby limiting viral replication. We present evidence that MUT-15 is critical for viral pUGylation because it interacts with RDE-3 and the NYN domain-containing endonuclease RDE-8, thus bridging the enzymes that cleave and pUGylate viral RNA, ensuring efficient antiviral immunity. We conclude that pUGylation promotes antiviral immunity in C. elegans, and we provide molecular insights into how C. elegans identifies and neutralizes its internal and external parasitic threats.

Viruses are a threat to all organisms. Therefore, organisms have evolved numerous systems to recognize and neutralize viruses. Many of these systems, which are referred to as innate immune systems, function by recognizing unique molecular characteristics of the viral genetic material. One such innate immune system is RNA interference (RNAi). RNA interference uses double-stranded RNA, which is an obligatory byproduct of replication for many viruses, as a weapon to fight viruses. In this work, we provide molecular insights into how the nematode C. elegans uses RNA interference and viral double-stranded RNAs to defend itself against viral invaders.

## Linked entities

- **Genes:** rde-3 (PAP-associated domain-containing protein) [NCBI Gene 187005], mut-15 (MUTator) [NCBI Gene 180000], rde-8 (RNase NYN domain-containing protein) [NCBI Gene 177483]
- **Proteins:** rde-3 (PAP-associated domain-containing protein), mut-15 (MUTator), rde-8 (RNase NYN domain-containing protein)

## Full-text entities

- **Genes:** rde-8 (RNase NYN domain-containing protein) [NCBI Gene 177483], mut-15 (MUTator) [NCBI Gene 180000]
- **Species:** Orsay virus (species) [taxon 977912], C. elegans [taxon 328850]

## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12645942/full.md

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Source: https://tomesphere.com/paper/PMC12645942