A gall-forming insect manipulates hostplant phytohormone synthesis, concentrations, and signaling
AbstractInsect galls are highly specialized plant organs formed by an intimate biochemical interaction between the plant and a gall-inducing insect. Galls provide the insect enhanced nutrition and protection against natural enemies and environmental stresses. Because galls are plant organs, their development is likely to be governed by native phytohormones that function in organogenesis. We characterized concentrations of both growth and stress phytohormones in ungalled leaves and the leaf galls of Daktulosphaira vitifoliae on wild grape Vitis riparia at 4 different developmental stages. We found clear evidence of hormone manipulation by phylloxera during gall initiation and development. Phylloxera suppressed accumulation of of gibberellins, auxin, and jasmonates during the first two gall stages while absiscic acid concentrations were suppressed throughout development. Concentrations of 3 cytokinins and salicylate were greatly elevated during the earliest gall stage and declined sharply thereafter. We found no evidence of expression of cytokinin biosynthesis genes during the first gall stage, which strongly suggests that phylloxera supplied those phytohormones. High salicylate concentrations could have been caused by cytokinins, a response to microbes, or both. Our results suggest a central role for cytokinins in gall initiation and indicate the importance of the insect’s ability to manipulate other hormones.