Cytoplasmic calcium influx mediated by plant MLKLs confers TNL-triggered immunity.

Cell host & microbe Pub Date : 2024-04-10 Epub Date: 2024-03-20 DOI:10.1016/j.chom.2024.02.016
Qiaochu Shen, Keiichi Hasegawa, Nicole Oelerich, Anna Prakken, Lea Weiler Tersch, Junli Wang, Frowin Reichhardt, Alexandra Tersch, Je Cuan Choo, Ton Timmers, Kay Hofmann, Jane E Parker, Jijie Chai, Takaki Maekawa
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Abstract

The plant homolog of vertebrate necroptosis inducer mixed-lineage kinase domain-like (MLKL) contributes to downstream steps in Toll-interleukin-1 receptor domain NLR (TNL)-receptor-triggered immunity. Here, we show that Arabidopsis MLKL1 (AtMLKL1) clusters into puncta at the plasma membrane upon TNL activation and that this sub-cellular reorganization is dependent on the TNL signal transducer, EDS1. We find that AtMLKLs confer TNL-triggered immunity in parallel with RPW8-type HeLo-domain-containing NLRs (RNLs) and that the AtMLKL N-terminal HeLo domain is indispensable for both immunity and clustering. We show that the AtMLKL HeLo domain mediates cytoplasmic Ca2+ ([Ca2+]cyt) influx in plant and human cells, and AtMLKLs are responsible for sustained [Ca2+]cyt influx during TNL-triggered, but not CNL-triggered, immunity. Our study reveals parallel immune signaling functions of plant MLKLs and RNLs as mediators of [Ca2+]cyt influx and a potentially common role of the HeLo domain fold in the Ca2+-signal relay of diverse organisms.

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由植物 MLKLs 介导的细胞质钙离子流入赋予 TNL 触发的免疫力。
脊椎动物坏死诱导物混合系激酶结构域样(MLKL)的植物同源物有助于Toll-白细胞介素-1受体结构域NLR(TNL)受体触发免疫的下游步骤。在这里,我们发现拟南芥 MLKL1(AtMLKL1)在 TNL 激活时会在质膜上聚集成点状,这种亚细胞重组依赖于 TNL 信号转导子 EDS1。我们发现,AtMLKL与含RPW8型HeLo-domain的NLRs(RNLs)同时赋予TNL触发的免疫力,而且AtMLKL N-末端的HeLo domain对免疫力和集群都是不可或缺的。我们的研究表明,在植物和人类细胞中,AtMLKL HeLo 结构域介导细胞质 Ca2+ ([Ca2+]cyt)流入,在 TNL 触发的免疫过程中,AtMLKLs 负责持续的[Ca2+]cyt 流入,而不是 CNL 触发的免疫过程。我们的研究揭示了植物 MLKLs 和 RNLs 作为[Ca2+]cyt 流入介质的平行免疫信号功能,以及 HeLo 结构域折叠在多种生物的 Ca2+ 信号中继中的潜在共同作用。
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From poo to promise: Fecal microbiota transplants support immunotherapy re-sensitization in solid tumors. Human cytomegalovirus degrades DMXL1 to inhibit autophagy, lysosomal acidification, and viral assembly. A specific enterotype derived from gut microbiome of older individuals enables favorable responses to immune checkpoint blockade therapy. Cytoplasmic calcium influx mediated by plant MLKLs confers TNL-triggered immunity. Opposing diet, microbiome, and metabolite mechanisms regulate inflammatory bowel disease in a genetically susceptible host.
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