Involvement of copper amine oxidase (CuAO)-dependent hydrogen peroxide synthesis in ethylene-induced stomatal closure in Vicia faba.

摘要

Ethylene promotes stomatal closure via inducing hydrogen peroxide (H₂O₂) generation. H₂O₂ can be catalytically synthesized by several enzymes in plants. Here, by means of stomatal bioassay, the analysis of enzyme activity and using laser-scanning confocal microscopy based on the H₂O₂-sensitive probe 2',7'-dichlorodihydrofluorescein diacetate (H₂DCF-DA), the roles of copper amine oxidase (CuAO) in ethylene-induced H₂O₂ production in guard cells and stomatal closure in Vicia faba L. were investigated. 1-aminocyclopropane-1-carboxylic acid (ACC), an immediate precursor of ethylene synthesis, and ethylene gas significantly activated CuAO in intercellular washing fluid from leaves, the production of H₂O₂ in guard cells, and stomatal closure. These effects of ACC and ethylene gas were largely prevented by both aminoguanidine and 2-bromoethylamine, which are irreversible inhibitors of CuAO. Among major catalyzed and metabolized products of CuAO, only H₂O₂ could markedly promote stomatal closure and evidently reversed the effect of CuAO inhibitor on stomatal closure by ACC and ethylene gas. The data described above show that CuAO-mediated H₂O₂ production is involved in ethylene-induced stomatal closure.