The N-terminal domains of NLR immune receptors exhibit structural and functional similarities across divergent plant lineages

Khong-Sam Chia, Jiorgos Kourelis, Albin Teulet, Martin Vickers, Toshiyuki Sakai, Joseph F Walker, Sebastian Schornack, Sophien Kamoun, Philip Carella
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Abstract

Nucleotide-binding domain and leucine-rich repeat (NLR) proteins are a prominent class of intracellular immune receptors in plants. However, our understanding of plant NLR structure and function is limited to the evolutionarily young flowering plant clade. Here, we describe an extended spectrum of NLR diversity across divergent plant lineages and demonstrate the structural and functional similarities of N-terminal domains that trigger immune responses. We show that the broadly distributed coiled-coil (CC) and toll/interleukin-1 receptor (TIR) domain families of non-flowering plants retain immune-related functions through trans-lineage activation of cell death in the angiosperm Nicotiana benthamiana. We further examined a CC subfamily specific to non-flowering lineages and uncovered an essential N-terminal MAEPL motif that is functionally comparable to motifs in resistosome-forming CC-NLRs. Consistent with a conserved role in immunity, the ectopic activation of CCMAEPL in the non-flowering liverwort Marchantia polymorpha led to profound growth inhibition, defense gene activation, and signatures of cell death. Moreover, comparative transcriptomic analyses of CCMAEPL activity delineated a common CC-mediated immune program shared across evolutionarily divergent non-flowering and flowering plants. Collectively, our findings highlight the ancestral nature of NLR-mediated immunity during plant evolution that dates its origin to at least ∼500 million years ago.
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NLR 免疫受体的 N 端结构域在不同植物系中表现出结构和功能上的相似性
核苷酸结合域和富亮氨酸重复(NLR)蛋白是植物细胞内免疫受体的一个重要类别。然而,我们对植物 NLR 结构和功能的了解仅限于进化上年轻的开花植物支系。在这里,我们描述了不同植物系中 NLR 多样性的扩展谱系,并展示了引发免疫反应的 N 端结构域和功能的相似性。我们发现,非开花植物中广泛分布的盘绕线圈(CC)和通行费/白细胞介素-1受体(TIR)结构域家族通过跨系激活被子植物烟草(Nicotiana benthamiana)的细胞死亡,保留了与免疫相关的功能。我们进一步研究了非开花品系特有的 CC 亚家族,发现了一个重要的 N 端 MAEPL 基团,该基团在功能上与形成抗性体的 CC-NLRs 中的基团相似。与在免疫中的保守作用相一致,CCMAEPL 在非花肝草 Marchantia polymorpha 中的异位激活导致了严重的生长抑制、防御基因激活和细胞死亡。此外,对 CCMAEPL 活性进行的转录组学比较分析勾画出了进化上不同的非开花植物和开花植物共有的 CC 介导的免疫程序。总之,我们的研究结果凸显了 NLR 介导的免疫在植物进化过程中的祖先性质,其起源可追溯到至少 5 亿年前。
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