State Key Laboratory of Crop Stress Biology for Arid Areas and College of Plant Protection, Northwest A&F University, Yangling, China.
Mol Plant Pathol. 2023 Apr;24(4):317-330. doi: 10.1111/mpp.13298. Epub 2023 Jan 25.
As a destructive plant pathogen, Phytophthora infestans secretes diverse host-entering RxLR effectors to facilitate infection. One critical RxLR effector, PiAvr3b, not only induces effector-triggered immunity (ETI), which is associated with the potato resistance protein StR3b, but also suppresses pathogen-associated molecular pattern (PAMP)-triggered immunity (PTI). To date, the molecular basis underlying such dual activities remains unknown. Based on phylogenetic analysis of global P. infestans isolates, we found two PiAvr3b isoforms that differ by three amino acids. Despite this sequence variation, the two isoforms retain the same properties in activating the StR3b-mediated hypersensitive response (HR) and inhibiting necrosis induced by three PAMPs (PiNpp, PiINF1, and PsXeg1) and an RxLR effector (Pi10232). Using a combined mutagenesis approach, we found that the dual activities of PiAvr3b were tightly linked and determined by 88 amino acids at the C-terminus. We further determined that either the W60 or the E134 residue of PiAvr3b was essential for triggering StR3b-associated HR and inhibiting PiNpp- and Pi10232-associated necrosis, while the S99 residue partially contributed to PTI suppression. Additionally, nuclear localization of PiAvr3b was required to stimulate HR and suppress PTI, but not to inhibit Pi10232-associated cell death. Our study revealed that PiAvr3b suppresses the plant immune response at different subcellular locations and provides an example in which a single amino acid of an RxLR effector links ETI induction and cell death suppression.
作为一种具有破坏性的植物病原体,致病疫霉分泌多种宿主进入的 RxLR 效应子以促进感染。一个关键的 RxLR 效应子 PiAvr3b 不仅诱导效应子触发的免疫(ETI),与马铃薯抗性蛋白 StR3b 相关,还抑制病原体相关分子模式(PAMP)触发的免疫(PTI)。迄今为止,这种双重活性的分子基础仍然未知。基于全球致病疫霉菌分离株的系统发育分析,我们发现了两个 PiAvr3b 同工型,它们在三个氨基酸上存在差异。尽管存在这种序列变异,但这两个同工型在激活 StR3b 介导的过敏反应(HR)和抑制三种 PAMPs(PiNpp、PiINF1 和 PsXeg1)和一个 RxLR 效应子(Pi10232)诱导的坏死方面保留了相同的特性。使用组合诱变方法,我们发现 PiAvr3b 的双重活性紧密相关,由 C 末端的 88 个氨基酸决定。我们进一步确定 PiAvr3b 的 W60 或 E134 残基对于触发与 StR3b 相关的 HR 和抑制 PiNpp 和 Pi10232 相关的坏死是必不可少的,而 S99 残基部分有助于 PTI 抑制。此外,PiAvr3b 的核定位对于刺激 HR 和抑制 PTI 是必需的,但对于抑制 Pi10232 相关的细胞死亡不是必需的。我们的研究表明,PiAvr3b 在不同的亚细胞位置抑制植物免疫反应,并提供了一个例子,即一个 RxLR 效应子的单个氨基酸将 ETI 诱导和细胞死亡抑制联系起来。
