We tested whether signaling pathways induced by systemin, oligosaccharide elicitors (OEs), and ultraviolet (UV)-B radiation share common components in Lycopersicon peruvianum suspension-cultured cells. These stress signals all induce mitogenactivated protein kinase (MAPK) activity. In desensitization assays, we found that pretreatment with systemin and OEs transiently reduced the MAPK response to a subsequent treatment with the same or a different elicitor. In contrast, MAPK activity in response to UV-B increased after pretreatment with systemin and OEs. These experiments demonstrate the presence of signaling components that are shared by systemin, OEs, and UV-B. Based on desensitization assays, it is not clear if the same or different MAPKs are activated by different stress signals. To identify specific stress-responsive MAPKs, we cloned three MAPKs from a tomato (Lycopersicon esculentum) leaf cDNA library, generated member-specific antibodies, and performed immunocomplex kinase assays with extracts from elicited L. peruvianum cells. Two highly homologous MAPKs, LeMPK1 and LeMPK2, were activated in response to systemin, four different OEs, and UV-B radiation. An additional MAPK, LeMPK3, was only activated by UV-B radiation. The common activation of LeMPK1 and LeMPK2 by many stress signals is consistent with the desensitization assays and may account for substantial overlaps among stress responses. On the other hand, MAPK activation kinetics in response to elicitors and UV-B differed substantially, and UV-B activated a different set of LeMPKs than the elicitors. These differences may account for UV-B-specific responses.Plants have developed sophisticated defensive and protective responses to the various forms of stress they encounter in their environment. It has become increasingly evident that the underlying stress signaling pathways overlap and interact substantially. Although there is a remarkable specificity for stress signal perception, the signaling pathways and the resulting responses often appear to be rather unspecific. On an evolutionary scale, this may provide a basis for rapid and versatile adaptations to changing environmental challenges. For an individual plant, this may allow for an efficient response to several stressors present at the same time, a scenario plants often encounter in their environment.The systemin-mediated wound response in tomato plants is a well-investigated stress response. Systemin, an 18-amino acid wound-signaling peptide, is produced at wound sites in response to attack by herbivorous insects, and is perceived by the systemin receptor SR160, a Leu-rich repeat receptor kinase (Scheer and Ryan, 2002). Systemin is required for the systemic expression of defensive proteinase inhibitor (PI) genes (for review, see Ryan, 2000) via production of the long-distance wound signal jasmonic acid (Lee and Howe, 2003). PIs may also function in pathogen responses because PI genes are expressed in response to oligosaccharide elicitors (OEs; Walker-Simmons and Ryan, 1984; Doares et al., 1995;...
