Jasmonic acid methyl ester has been discussed as a stress signal in plants. To investigate the relevance of reversible methylation of jasmonic acid, stress responses of transgenic tomato lines with altered expression and activity of methyl jasmonate esterase were analysed. No consistent changes in levels of methyl jasmonate, 12-oxo-phytodienoic acid, jasmonic acid, jasmonic acid isoleucine and expression of the jasmonate-responsive genes AOC and PINII between control line and RNAi as well as overexpressing lines were detectable under basal and wound-induced conditions. In contrast, reduction as well as enhancement of methyl jasmonate esterase activity resulted in increased susceptibility to the fungal pathogen Sclerotinia sclerotiorum despite higher levels of the hormonal active jasmonic acid isoleucine conjugate. Results suggest that methyl jasmonate esterase has a function in vivo in plant defence, which appears not to be related to its in vitro capacity to hydrolyse methyl jasmonate.