Extracellular vesicle-mediated plant miRNA trafficking regulates viral infection in insect vector
Qian Wang, Hong Lu, Xiaoyue Fan, Jiaming Zhu, Jianfei Shi, Wan Zhao, Yan Xiao, Yongyu Xu, Jinfeng Chen, Feng Cui
Abstract
Extracellular vesicle (EV)-mediated small RNA trafficking plays an important role in intercellular and interspecies communication. Plant arboviruses keep homeostasis in insect vectors, thus ensuring vector survival and viral transmission. How plant EV-mediated cross-kingdom RNA interference participates in viral infection in insect vectors remains unknown. Here, we successfully isolate rice EVs and identify a batch of microRNAs (miRNAs) encapsulated in EVs. Two EV-enriched rice miRNAs, Osa-miR159a.1-1 and Osa-miR167a, are transported into midgut epithelial cells of small brown planthopper, which is a competent vector of rice stripe virus (RSV). Osa-miR159a.1-1 elevates the expression of a phospholipase C by enhancing its mRNA stability, inducing the downstream CSL expression to inhibit apoptosis for the benefit of RSV replication. On the other hand, Osa-miR167a directly binds RSV RdRp to suppress viral replication. This differential regulation of EV-mediated cross-kingdom RNA interference contributes to arbovirus homeostasis in insect vectors and the following efficient transmission.