The multifunctional ascorbate peroxidase MoApx1 secreted by <i>Magnaporthe oryzae</i> mediates the suppression of rice immunity
Muxing Liu, Ziqian Guo, Jiexiong Hu, Yuke Chen, Fang Chen, Weizhong Chen, Wenya Wang, Boyang Ye, Zhi‐Xiang Yang, Gang Li, Xinyu Liu, Haifeng Zhang, Ping Wang, Zhengguang Zhang
Abstract
Fungi secrete effector proteins, including extracellular redox enzymes, to inhibit host immunity. Redox enzymes have been hypothesized to inhibit host reactive oxygen species (ROS); however, how they suppress host immunity remains unknown. We characterized an extracellular ascorbate peroxidase (MoApx1) that is secreted into rice chloroplasts by the rice blast fungus Magnaporthe oryzae. MoApx1 displays multifunctional capabilities that significantly contribute to fungal virulence. Firstly, MoApx1 neutralizes host-derived H2O2 within the chloroplast through its peroxidase activity, thereby inhibiting chloroplast ROS (cROS)-mediated defense responses. Secondly, MoApx1 targets the photosystem I subunit OsPsaD, disrupting photosynthetic electron transport to further suppress cROS production. Most importantly, MoApx1 has evolved a fungal-specific starch-binding domain that binds host starch, inhibiting its degradation and disrupting the energy supply required for host resistance. Our findings underscore the importance of a novel multifaceted strategy, potentially widely employed by other fungal pathogens, in suppressing host immunity during host-microbe interactions.