TY - JOUR AB - Plasmodesmata (PD) are plant-specific membrane-lined channels that create cytoplasmic and membrane continuities between adjacent cells, thereby facilitating cell–cell communication and virus movement. Plant cells have evolved diverse mechanisms to regulate PD plasticity in response to numerous environmental stimuli. In particular, during defense against plant pathogens, the defense hormone, salicylic acid (SA), plays a crucial role in the regulation of PD permeability in a callose-dependent manner. Here, we uncover a mechanism by which plants restrict the spreading of virus and PD cargoes using SA signaling by increasing lipid order and closure of PD. We showed that exogenous SA application triggered the compartmentalization of lipid raft nanodomains through a modulation of the lipid raft-regulatory protein, Remorin (REM). Genetic studies, superresolution imaging, and transmission electron microscopy observation together demonstrated that Arabidopsis REM1.2 and REM1.3 are crucial for plasma membrane nanodomain assembly to control PD aperture and functionality. In addition, we also found that a 14-3-3 epsilon protein modulates REM clustering and membrane nanodomain compartmentalization through its direct interaction with REM proteins. This study unveils a molecular mechanism by which the key plant defense hormone, SA, triggers membrane lipid nanodomain reorganization, thereby regulating PD closure to impede virus spreading. AU - Huang, D AU - Sun, Y AU - Ma, Z AU - Ke, M AU - Cui, Y AU - Chen, Z AU - Chen, C AU - Ji, C AU - Tran, TM AU - Yang, L AU - Lam, SM AU - Han, Y AU - Shu, G AU - Friml, Jiří AU - Miao, Y AU - Jiang, L AU - Chen, X ID - 6999 IS - 42 JF - Proceedings of the National Academy of Sciences of the United States of America SN - 0027-8424 TI - Salicylic acid-mediated plasmodesmal closure via Remorin-dependent lipid organization VL - 116 ER -