Pathogen-responsive mitogen-activated protein kinase (MAPK or MPK) cascades relay signals from activated immune receptors across the nuclear envelope to intranuclear targets. However, in plants, little is known about the spatial control of MAPK signaling. Here, we report that the Arabidopsis (Arabidopsis thaliana) nuclear pore complex protein Nup88/MOS7 is essential for immunity to the necrotrophic fungus Botrytis cinerea The mos7-1 mutation, causing a four-amino acid deletion, compromises B. cinerea-induced activation of the key immunoregulatory MAPKs MPK3/MPK6 and reduces MPK3 protein levels posttranscriptionally. Furthermore, MOS7 contributes to retaining a sufficient MPK3 abundance in the nucleus, which is required for full immunity to B. cinerea Finally, we present a structural model of MOS7 and show that the mos7-1 mutation compromises interactions with Nup98a/b, two phenylalanine-glycine repeat nucleoporins implicated in maintaining the selective nuclear pore complex permeability barrier. Together, our analysis uncovered MOS7 and Nup98 as novel components of plant immunity toward a necrotrophic pathogen and provides mechanistic insights into how these nucleoporins coordinate nucleocytoplasmic transport to mount a robust immune response.
Importin-α proteins mediate the translocation of nuclear localization signal (NLS)-containing proteins from the cytoplasm into the nucleus through nuclear pore complexes (NPCs). Genetically, Arabidopsis IMPORTIN-α3/MOS6 (MODIFIER OF SNC1, 6) is required for basal plant immunity and constitutive disease resistance activated in autoimmune mutant snc1 (suppressor of npr1-1, constitutive 1), suggesting that MOS6 plays a role in the nuclear import of proteins involved in plant defense signaling. Here, we sought to identify and characterize defense-regulatory cargo proteins and interaction partners of MOS6. We conducted both in silico database analyses and affinity purification of functional epitope-tagged MOS6 from pathogen-challenged stable transgenic plants coupled with mass spectrometry. We show that among the 13 candidate MOS6 interactors we selected for further functional characterization, the TIR-NBS-type protein TN13 is required for resistance against Pseudomonas syringae pv. tomato (Pst) DC3000 lacking the type-III effector proteins AvrPto and AvrPtoB. When expressed transiently in N. benthamiana leaves, TN13 co-immunoprecipitates with MOS6, but not with its closest homolog IMPORTIN-α6, and localizes to the endoplasmic reticulum (ER), consistent with a predicted N-terminal transmembrane domain in TN13. Our work uncovered the truncated NLR protein TN13 as a component of plant innate immunity that selectively binds to MOS6/IMPORTIN-α3 in planta. We speculate that the release of TN13 from the ER membrane in response to pathogen stimulus, and its subsequent nuclear translocation, is important for plant defense signal transduction.
IMPORTIN-a3/MOS6 (MODIFIER OF SNC1, 6) is one of nine importin-a isoforms in Arabidopsis that recruit nuclear localization signal-containing cargo proteins to the nuclear import machinery. IMP-a3/MOS6 is required genetically for full autoimmunity of the nucleotide-binding leucine-rich repeat immune receptor mutant snc1 (suppressor of npr1-1, constitutive 1) and MOS6 also contributes to basal disease resistance. Here, we investigated the contribution of the other importin-a genes to both types of immune responses, and we analyzed potential interactions of all importin-a isoforms with SNC1. By using reverse-genetic analyses in Arabidopsis and proteinÀprotein interaction assays in Nicotiana benthamiana, we provide evidence that among the nine a-importins in Arabidopsis, IMP-a3/MOS6 is the main nuclear transport receptor of SNC1, and that IMP-a3/MOS6 is required selectively for autoimmunity of snc1 and basal resistance to mildly virulent Pseudomonas syringae in Arabidopsis.
32IMPORTIN-3/MOS6 (MODIFIER OF SNC1, 6) is one of nine importin- isoforms in 33 Arabidopsis that recruit nuclear localization signal (NLS)-containing cargo proteins to the 34 nuclear import machinery. IMP-3/MOS6 is required genetically for full autoimmunity of 35 the nucleotide-binding leucine-rich repeat (NLR) immune receptor mutant snc1 36 (suppressor of npr1-1, constitutive 1) and MOS6 also contributes to basal disease 37 resistance. Here, we investigated the contribution of the other importin- genes to both 38 types of immune responses, and we analyzed potential interactions of all importin- 39 isoforms with SNC1. By using reverse-genetic analyses in Arabidopsis and protein-40 protein interaction assays in N. benthamiana we provide evidence that among the nine 41 -importins in Arabidopsis, IMP-3/MOS6 is the main nuclear transport receptor of 42 SNC1, and that IMP-3/MOS6 is required selectively for autoimmunity of snc1 and basal 43 resistance to mildly virulent Pseudomonas syringae in Arabidopsis. 44 45 46 SIGNIFICANCE STATEMENT 47
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