A KNOX Ⅱ transcription factor suppresses the NLR immune receptor BRG8-mediated immunity in rice

Nucleotide-binding site and leucine-rich repeat (NLR) proteins are activated by detecting pathogen effectors, which in turn trigger host defenses and cell death. Although many NLRs have been identified, the mechanism responsible for NLR-triggered defense responses are still poorly understood. In this study, through GWAS approach, we identified a novel NLR gene, Blast Resistance Gene 8 (BRG8), conferring resistance to rice blast and bacterial blight diseases. Consistently, the BRG8 overexpression and complementation lines exhibited enhanced resistance to both pathogens. Subcellular localization assays showed that BRG8 localized in both cytoplasm and nucleus. More evidence revealed that nuclear-localized BRG8 enhanced rice immunity without hypersensitive response (HR)-like phenotype. Furthermore, we also demonstrated the CC domain of BRG8 not only physically interacted with itself, but also interacted with the KNOX Ⅱ protein HOMEOBOX ORYZA SATIVA59 (HOS59). Knockout of HOS59 in BRG8 background showed enhanced resistance to M. oryzae strain CH171 and Xoo strain CR4, similar to BRG8 background. In contrast, overexpression of HOS59 in BRG8 background, compromised the HR-like phenotype and resistance response. Further analysis revealed that HOS59 promotes the degradation of BRG8 via the 26S proteasome pathway. Collectively, our study highlights HOS59 as NLR immune regulators, fine-tune BRG8-mediated immune responses against pathogens, and provides new insights into NLR association and function in plant immunity.