Phytophthora targets plant extracellular vesicles to promote infection

Extracellular vesicles (EVs) transport biologically active molecules and are known to mediate host defence against microbial pathogens, including plant fungal pathogens. However, the mechanism by which pathogens disrupt EV-dependent defence remains unclear. Here we show that Phytophthora capsici, a global crop pathogen, counteracts EV-mediated plant defence through targeted lipase activity. We show that Arabidopsis releases EVs containing tetraspanin (TET), specifically TET8- and TET9-EVs, which damage germinated spores of Phytophthora, reducing infection. As a counter-defence, Phytophthora secretes an infection-induced apoplastic lipase, Plant Extracellular Vesicle Destroyer 1 (PED1), which targets TET8- and TET9-EVs. This occurs via interaction with the EV membrane-localized protein Defective Glycosylation 1 (DGL1), which directly interacts and co-localizes with TET8 and TET9 on the EV membrane. PED1 damages TET8- and TET9-EVs through its lipase activity towards campesteryl esters, suppressing EV-mediated plant defence. Our study reveals a mechanism used by Phytophthora to counteract EV-mediated host defence.