Interplant communication: airborne methyl jasmonate is essentially converted into JA and JA-Ile activating jasmonate signaling pathway and VOCs emission

Methyl jasmonate (MeJA) was identified as an airborne signal involved in mediating interplant defense response communications over a decade ago. However, how MeJA activates plant defense systems and what becomes of the compound after it has done so has, thus far, remained unknown. To investigate this, Achyranthes bidentata plants were exposed to deuterated methyl jasmonate (d₂MeJA) followed by absolute quantification of metabolic products of d₂MeJA, and emissions of volatile organic compound (VOC) as defensive markers. We found that d₂MeJA was metabolized mainly into deuterated jasmonic acid (d₂JA) and jasmonoyl isoleucine (d₂JA-Ile), and to a much lesser extent, deuterated jasmonoyl leucine (d₂JA-Leu). Increases in d₂JA-Ile/Leu and also endogenous JA-Ile/Leu were tightly co-related with, and significantly influenced the pattern and amount of, VOC emissions. The amount of accumulated d₂JA-IIe was 13.1-fold higher than d₂JA-Leu, whereas the amounts of JA-IIe and JA-Leu accumulated were almost identical. This study demonstrates that exogenous MeJA activates defensive systems (such as VOC emissions) in receiver plants by essentially converting itself into JA and JA-IIe and initiating a signal transduction leading to VOC emissions and induction of endogenous JA-IIe and JA-Leu, which in turn cause further amplification of VOC emissions.