OXI1 激酶通过将微生物模式诱导的 ROS 暴发与 MAPK 激活联系起来来调节植物免疫力

Miaomiao Ma, Pan Wang, Rubin Chen, Mei Bai, Zhuoyuan He, Dan Xiao, Guangyuan Xu, Hong Wu, Jian-Min Zhou, Daolong Dou, Guozhi Bi, Xiangxiu Liang
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引用次数: 0

摘要

植物细胞表面定位的模式识别受体(PRR)可识别微生物模式并激活模式触发免疫(PTI)。典型的 PTI 反应包括由 NADPH 氧化酶 RESPIRATORY BURST OXIDASE HOMOLOGUE D(RbohD)控制的活性氧(ROS)爆发,以及由 MAPKK3/5-MKK4/5-MPK3/6 组成的丝裂原活化蛋白激酶(MAPK)级联的激活。然而,PRRs 调节和协调这些免疫反应的机制尚未完全清楚。在这里,我们发现拟南芥氧化信号抑制1(OXI1)--一种已知被 ROS 激活的激酶--参与了 LYK5-CERK1 受体复合物,该受体复合物能识别真菌细胞壁衍生的几丁质。oxi1 突变体对各种病原体的易感性增强,几丁质诱导的 MAPK 激活和 ROS 爆发减少。我们发现几丁质以依赖 RbohD 的方式诱导 OXI1 磷酸化。H2O2 和几丁质处理会导致 OXI1 的 Cys104 和 Cys205 氧化,这对 OXI1 的激酶活性至关重要。这些氧化位点是几丁质诱导的 MAPK 激活和抗病所必需的。活化的 OXI1 可直接磷酸化 MAPKK5,从而调节 MAPK 的活化。此外,OXI1 还能使 RbohD 磷酸化,这表明它可能会激活 RbohD 以促进 ROS 迸发,从而进一步加强 MAPK 的长期激活。总之,我们的研究结果揭示了一条通过 OXI1 将 PRR 介导的 ROS 生成与 MAPK 激活联系起来的途径。
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The OXI1 kinase regulates plant immunity by linking microbial pattern-induced ROS burst to MAPK activation
Plant cell-surface-localized pattern recognition receptors (PRRs) recognize microbial patterns and activate pattern-triggered immunity (PTI). Typical PTI responses include reactive oxygen species (ROS) burst controlled by the NADPH oxidase RESPIRATORY BURST OXIDASE HOMOLOGUE D (RbohD) and activation of the mitogen-activated protein kinase (MAPK) cascade composed of MAPKKK3/5-MKK4/5-MPK3/6. However, the mechanisms through which PRRs regulate and coordinate these immune responses are not fully understood. Here, we showed that Arabidopsis thaliana OXIDATIVE SIGNAL-INDUCIBLE1 (OXI1), a kinase known to be activated by ROS, is involved in the LYK5-CERK1 receptor complex, which recognizes fungal cell wall-derived chitin. The oxi1 mutant exhibits enhanced susceptibility to various pathogens and reduced chitin-induced MAPK activation and ROS burst. We showed that chitin induces the phosphorylation of OXI1 in an RbohD-dependent manner. H2O2 and chitin treatment causes the oxidation of OXI1 at Cys104 and Cys205, which is essential for the kinase activity of OXI1. These oxidation sites are required for chitin-induced MAPK activation and disease resistance. Activated OXI1 directly phosphorylates MAPKKK5 to regulate MAPK activation. Additionally, OXI1 phosphorylates RbohD, suggesting that it may activate RbohD to promote ROS burst to further enhance the long-term MAPK activation. Together, our findings reveal a pathway linking PRR-mediated ROS production to MAPK activation through OXI1.
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