Eicosapentaenoic acid: New insights into an oomycete-driven elicitor to enhance grapevine immunity.

The widespread use of pesticides in agriculture remains a matter of major concern, prompting a critical need for alternative and sustainable practices. To address this, the use of lipid-derived molecules as elicitors to induce defence responses in grapevine plants was accessed. A Plasmopara viticola fatty acid (FA), eicosapentaenoic acid (EPA) naturally present in oomycetes, but absent in plants, was applied by foliar spraying to the leaves of the susceptible grapevine cultivar (Vitis vinifera cv. Trincadeira), while a host lipid derived phytohormone, jasmonic acid (JA) was used as a molecule known to trigger host defence. Their potential as defence triggers was assessed by analysing the expression of a set of genes related to grapevine defence and evaluating the FA modulation upon elicitation. JA prompted grapevine immunity, altering lipid metabolism and up-regulating the expression of several defence genes. EPA also induced a myriad of responses to the levels typically observed in tolerant plants. Its application activated the transcription of defence gene's regulators, pathogen-related genes and genes involved in phytoalexins biosynthesis. Moreover, EPA application resulted in the alteration of the leaf FA profile, likely by impacting biosynthetic, unsaturation and turnover processes. Although both molecules were able to trigger grapevine defence mechanisms, EPA induced a more robust and prolonged response. This finding establishes EPA as a promising elicitor for an effectively managing grapevine downy mildew diseases. • Lipid-derived molecules offer a sustainable solution for managing grapevine diseases. • Jasmonic acid, a plant phytohormone, enhances grapevine immunity by modulating lipid metabolism and activating defence genes. • EPA, an oomycete-derived FA, induces defence mechanisms in a susceptible grapevine cultivar, resembling responses presented in tolerant grapevines. • Eicosapentaenoic acid elicits the up-regulation of defence genes, lipid signalling, and secondary metabolism. • The application of eicosapentaenoic acid elicits a stronger and longer-lasting response compared with jasmonic acid. [ABSTRACT FROM AUTHOR]