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The <i>Meloidogyne graminicola</i> effector MgMO289 targets a novel copper metallochaperone to suppress immunity in rice

Handa Song, Borong Lin, Qiuling Huang, Longhua Sun, Jiansong Chen, Lili Hu, Kan Zhuo, Jinling Liao

2021Journal of Experimental Botany44 citationsDOIOpen Access PDF

Abstract

Recent studies have reported that plant-parasitic nematodes facilitate their infection by suppressing plant immunity via effectors, but the inhibitory mechanisms remain poorly understood. This study found that a novel effector MgMO289 is exclusively expressed in the dorsal esophageal gland of Meloidogyne graminicola and is up-regulated at parasitic third-/fourth-stage juveniles. In planta silencing of MgMO289 substantially increased plant resistance to M. graminicola. Moreover, we found that MgMO289 interacts with a new rice copper metallochaperone heavy metal-associated plant protein 04 (OsHPP04), and that rice cytosolic COPPER/ZINC -SUPEROXIDE DISMUTASE 2 (cCu/Zn-SOD2) is the target of OsHPP04. Rice plants overexpressing OsHPP04 or MgMO289 exhibited an increased susceptibility to M. graminicola and a higher Cu/Zn-SOD activity, but lower O2•- content, when compared with wild-type plants. Meanwhile, immune response assays showed that MgMO289 could suppress host innate immunity. These findings reveal a novel pathway for a plant pathogen effector that utilizes the host O2•--scavenging system to eliminate O2•- and suppress plant immunity.

Topics & Concepts

EffectorBiologyGraminicolaImmunityPlant ImmunityInnate immune systemNematodeCell biologySuperoxide dismutaseImmune systemMicrobiologyPathogenArabidopsisBiochemistryGeneImmunologyEnzymeEcologyMutantNematode management and characterization studiesLegume Nitrogen Fixing SymbiosisPlant Parasitism and Resistance