Insect-derived long non-coding RNAs function as epigenetic effectors to reprogram plant immunity

Cross-kingdom RNAs are emerging as critical mediators of interspecies interactions, yet the functions of long RNAs such as mRNAs and long non-coding RNAs (lncRNAs) in recipient organisms remain largely unexplored. Here, we show that the brown planthopper ( Nilaparvata lugens , BPH), a major rice pest, translocates mRNAs and lncRNAs into rice plants, where they migrate systemically from feeding sites to distal tissues. Compared with BPH mRNAs, BPH Salivary gland Cross-kingdom LncRNA ( BSCL s) exhibit markedly higher stability in rice. Among them, mitochondrial-originated BSCL1 functions as a virulence factor that promotes BPH feeding and reproduction by suppressing host defense. Mechanistically, BSCL1 associates with the HIRA histone chaperone complex and displaces histone H3.3 from the promoters of transcription factors, including bHLH genes central to jasmonic acid signaling, thereby repressing transcriptional immunity. Our results identify BSCL s as systemic, RNA-based effectors that reprogram host defense at the epigenetic level, revealing a previously unrecognized mode of insect-mediated manipulation of plant immunity and highlighting lncRNAs as cross-kingdom regulators.