Rice extracellular vesicles send defense proteins into fungus Rhizoctonia solani to reduce disease

The exchange of molecular information across kingdoms is crucial for the survival of both Plants and their pathogens. Recent research has identified that Plants transfer their small RNAs and MicroRNAs into Fungal pathogens to suppress Infection. However, whether and how Plants send defense proteins into pathogens remains unknown. Here, we report that rice (Oryza sativa) Plants package defense proteins into extracellular vesicles (EVs) and deliver them to the Fungal pathogen Rhizoctonia solani. These EVs, enriched with host defense proteins, are internalized by the Fungal cells. Reducing the transfer of host defense proteins via EVs results in increased disease susceptibility. Furthermore, the overexpression of host defense proteins in either rice Plants or the Fungal cells reduced the Infection. Therefore, Plants use EVs to send defense proteins into Fungal pathogens, thereby combating Infection. This mechanism represents a form of protein exchange between Plants and pathogens, which contributes to reducing crop diseases.

cross-kingdom protein transport; defense proteins; extracellular vesicles; plant immunity; plant-pathogen interaction; rice sheath blight.