H₂O₂ in plant peroxisomes: an in vivo analysis uncovers a Ca²⁺-dependent scavenging system

Oxidative stress is a major challenge for all cells living in an oxygen-based world. Among reactive oxygen species, H₂O₂, is a well known toxic molecule and, nowadays, considered a specific component of several signalling pathways. In order to gain insight into the roles played by H₂O₂ in plant cells, it is necessary to have a reliable, specific and non-invasive methodology for its in vivo detection. Hence, the genetically encoded H₂O₂ sensor HyPer was expressed in plant cells in different subcellular compartments such as cytoplasm and peroxisomes. Moreover, with the use of the new green fluorescent protein (GFP)-based Cameleon Ca²⁺ indicator, D3cpv-KVK-SKL, targeted to peroxisomes, we demonstrated that the induction of cytoplasmic Ca²⁺ increase is followed by Ca²⁺ rise in the peroxisomal lumen. The analyses of HyPer fluorescence ratios were performed in leaf peroxisomes of tobacco and pre- and post-bolting Arabidopsis plants. These analyses allowed us to demonstrate that an intraperoxisomal Ca²⁺ rise in vivo stimulates catalase activity, increasing peroxisomal H₂O₂ scavenging efficiency.