Down-regulation of catalase activity allows transient accumulation of a hydrogen peroxide signal in Chlamydomonas reinhardtii

Abstract

In photosynthetic organisms, excess light is a stress that induces production of reactive oxygen species inside the chloroplasts. As a response, the capacity of antioxidative defence mechanisms increases. However, when cells of Chlamydomonas reinhardtii were shifted from dark to high light, a reversible partial inactivation of catalase activity was observed, which correlated with a transient increase in the level of H2O2 in the 10μm range. This concentration range seems to be necessary to activate H2O2-dependent signalling pathways stimulating the expression of H2O2 responsive genes, such as the heat shock protein HSP22C. Catalase knock-down mutants had lost the transient accumulation of H2O2, suggesting that a decrease in catalase activity was the key element for establishing a transient H2O2 burst. Catalase was inactivated by a one-electron event consistent with the reduction of a single cysteine. We propose that under high light intensity, the redox state of the photosynthetic electron transport chain is sensed and transmitted to the cytosol to regulate the catalase activity. This allows a transient accumulation of H2O2, inducing a signalling event that is transmitted to the nucleus to modulate the expression of chloroplast-directed protection enzymes. © 2012 Blackwell Publishing Ltd.