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DsRNA-induced immunity targets plasmodesmata and is suppressed by viral movement proteins.

Caiping HuangAna Rocio SedeLaura Elvira-GonzálezYan YanMiguel RodriguezJerome MuttererEmmanuel BoutantLibo ShanManfred Heinlein
Published in: The Plant cell (2023)
Emerging evidence indicates that in addition to its well-recognized functions in antiviral RNA silencing, dsRNA elicits pattern-triggered immunity (PTI), likely contributing to plant resistance against virus infections. However, compared to bacterial and fungal elicitor-mediated PTI, the mode-of-action and signaling pathway of dsRNA-induced defense remain poorly characterized. Here, using multi-color in vivo imaging, analysis of green fluorescent protein (GFP) mobility, callose staining and plasmodesmal marker lines in Arabidopsis thaliana and Nicotiana benthamiana, we show that dsRNA-induced PTI restricts the progression of virus infection by triggering callose deposition at plasmodesmata, thereby likely limiting the macromolecular transport through these cell-to-cell communication channels. The plasma membrane-resident SOMATIC EMBRYOGENESIS RECEPTOR-LIKE KINASE 1 (SERK1) the BOTRYTIS INDUCED KINASE1 (BIK1)/AVRPPHB SUSCEPTIBLE1 (PBS1)-LIKE KINASE1 (BIK1/PBL1) kinase module, PLASMODESMATA-LOCATED PROTEINs (PDLPs)1/2/3, as well as CALMODULIN-LIKE 41 (CML41) and Ca2+ signals are involved in the dsRNA-induced signaling leading to callose deposition at plasmodesmata and antiviral defense. Unlike the classical bacterial elicitor flagellin, dsRNA does not trigger detectable reactive oxygen species (ROS) burst, substantiating the idea that different microbial patterns trigger partially shared immune signaling frameworks with distinct features. Likely as a counter strategy, viral movement proteins from different viruses suppress the dsRNA-induced host response leading to callose deposition to achieve infection. Thus, our data support a model in which plant immune signaling constrains virus movement by inducing callose deposition at plasmodesmata and reveals how viruses counteract this layer of immunity.
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