Neutralization of mobile antiviral small RNA through peroxisomal import.

In animals, certain viral proteins are targeted to peroxisomes to dampen the antiviral immune response mediated by these organelles. In plants, RNA interference (RNAi) mediated by small interfering (si)RNA is the main antiviral defence mechanism. To protect themselves against the cell- and non-cell autonomous effects of RNAi, viruses produce viral suppressors of RNA silencing (VSR), whose study is crucial to properly understand the biological cycle of plant viruses and potentially find new solutions to control these pathogens. By combining biochemical approaches, cell-specific inhibition of RNAi movement and peroxisome isolation, we show here that one such VSR, the peanut clump virus (PCV)-encoded P15, isolates siRNA from the symplasm by delivering them into the peroxisomal matrix. Infection with PCV lacking this ability reveals that piggybacking of these VSR-bound nucleic acids into peroxisomes potentiates viral systemic movement by preventing the spread of antiviral siRNA. Collectively, these results highlight organellar confinement of antiviral molecules as a novel pathogenic strategy that may have its direct counterpart in other plant and animal viruses.