Jasmonic acid catabolism in Arabidopsis defence against mites

Jasmonates are essential modulators of plant defences but the role of JA-derivatives has been scarcely studied, particularly in the plant-pest interplay. To deepen into the JA catabolism and its impact on plant responses to spider mite infestation, we selected the Arabidopsis JAO2 gene as a key element involved in the first step of the JA-catabolic route. JAO2 is responsible for the hydroxylation of JA into 12-OH-JA, contributes to attenuate JA and JA-Ile content and consequently, determines the formation of other JA-catabolites. JAO2 was up-regulated in Arabidopsis by mite infestation. Mites also induced JA-derivative accumulation in plants. In jao2 mutant lines, and in the triple mutant jaoT (jao2-1, jao3-1, jao4-2), mite feeding produced less leaf damage, minor callose deposition and lower mite fecundity rates than in Col-0 plants. The impairment of JA oxidation in jao2 lines not only diminished the 12-OH-JA levels but turned off further sulfation as shown the significant reduction of 12HSO4-JA form. Thus, JAO2 acts as a negative modulator of defences to spider mites mediated by changes in the generation of JA catabolic molecules, and the consequent production of defensive metabolites such as glucosinolates or camalexin.

Automated summary

Jasmonates play an important role in plant defense, but the role of JA derivatives in the plant-pest interaction is not well studied. This study focused on the JA catabolism and its impact on plant responses to spider mite infestation. The JAO2 gene, responsible for the hydroxylation of JA, was found to be up-regulated in response to mite infestation. The impairment of JA oxidation in jao2 mutant lines reduced defensive responses and resulted in lower mite fecundity rates.