A plastidic glucose-6-phosphate dehydrogenase is responsible for hypersensitive response cell death and reactive oxygen species production

Abstract

Glucose-6-phosphate dehydrogenase (G6PDH) has been implicated in the supply of reduced nicotine amide cofactors for resistance to biotic and abiotic stresses. Here, we show participation of the plastidic P2 isoform of G6PDH in plant immunity. A cytosolic isoform (NbG6PDH-Cyto) and two plastidic isoforms (NbG6PDH-P1 and NbG6PDH-P2) cloned from Nicotiana benthamiana were localized in cytosol and chloroplasts, respectively. Hypersensitive response (HR) cell death and NADPH oxidase (RBOH; respiratory burst oxidase homolog)-dependent reactive oxygen species (ROS) production after recognition of INF1 elicitin, secreted by oomycete Phytophthora infestans, decreased in NbG6PDH-P2-silenced plants, but not in NbG6PDH-Cyto- and NbG6PDH-P1-silenced plants. Silencing of the cytosolic NAD kinase NbNADK1, which phosphorylates NADH to form NADPH, compromised HR cell death and ROS production, and concomitant silencing with NbG6PDH-P2 reduced HR cell death and ROS to levels near those in NbG6PDH-P2-silenced plants. Similarly, silencing NbG6PDH-P2 and NbNADK1 resulted in high susceptibility to P. infestans. These results suggest that NADPH produced by the P2 isoform of G6PDH in chloroplasts is responsible for HR cell death and ROS production mediated by RBOH and that NbNADK1 is involved in this pathway.