Changes in hydrogen peroxide homeostasis trigger an active cell death process in tobacco

Abstract

Summary: In transgenic tobacco plants with reduced catalase activity, high levels of hydrogen peroxide (H₂O₂) can accumulate under photorespiratory conditions. Such a perturbation in H₂O₂ homeostasis induced cell death in clusters of palisade parenchyma cells, primarily along the veins. Ultrastructural alterations, such as chromatin condensation and disruption of mitochondrial integrity, took place before cell death. Furthermore, enhanced transcript levels of mitochondrial defense genes accompanied these mitochondrial changes. Pharmacological data indicated that the initiation and execution of cell death require de novo protein synthesis and that the signal transduction pathway leading to cell death involved changes in ion homeostasis, (de)phosphorylation events and an oxidative burst, as observed during hypersensitive responses. This oxidase‐dependent oxidative burst is essential for cell death, but it is not required for the accumulation of defense proteins, suggesting a more prominent role for the oxidative burst in abiotic stress‐induced cell death.