A pharmacological approach to investigating effector translocation in rice-Magnaporthe oryzae interactions.

Plant signaling & behavior Pub Date : 2024-12-31 Epub Date: 2024-05-09 DOI:10.1080/15592324.2024.2350869

Ely Oliveira-Garcia, Allison Jane Hamilton

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Abstract

Fungal pathogens deliver effector proteins into living plant cells to suppress plant immunity and control plant processes that are needed for infection. During plant infection, the devastating rice blast fungus, Magnaporthe oryzae, forms the specialized biotrophic interfacial complex (BIC), which is essential for effector translocation. Cytoplasmic effectors are first focally secreted into BICs, and subsequently packaged into dynamic membranous effector compartments (MECs), then translocated via clathrin-mediated endocytosis (CME) into the host cytoplasm. This study demonstrates that clathrin-heavy chain inhibitors endosidin-9 (ES9) and endosidin-9-17 (ES9-17) blocked the internalization of the fluorescently labeled effectors Bas1 and Pwl2 in rice cells, leading to swollen BICs lacking MECs. In contrast, ES9-17 treatment had no impact on the localization pattern of the apoplastic effector Bas4. This study provides further evidence that cytoplasmic effector translocation occurs by CME in BICs, suggesting a potential role for M. oryzae effectors in co-opting plant endocytosis.

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用药理学方法研究水稻-Magnaporthe oryzae 相互作用中的效应物转移。

真菌病原体将效应蛋白传递到植物活细胞中，以抑制植物免疫力并控制植物感染所需的过程。在植物感染过程中，毁灭性稻瘟病真菌 Magnaporthe oryzae 会形成特化的生物营养界面复合体（BIC），这对效应物的转运至关重要。细胞质效应物首先集中分泌到 BIC 中，随后被包装成动态膜效应物区（MEC），然后通过凝集素介导的内吞（CME）转运到宿主细胞质中。本研究证明，凝集素重链抑制剂内苷蛋白-9（ES9）和内苷蛋白-9-17（ES9-17）阻止了荧光标记效应物 Bas1 和 Pwl2 在水稻细胞中的内化，导致缺乏 MEC 的 BIC 肿胀。与此相反，ES9-17 处理对凋亡效应子 Bas4 的定位模式没有影响。这项研究进一步证明了细胞质效应子通过 CME 在 BICs 中发生转运，这表明 M. oryzae 的效应子在共同作用植物内吞过程中发挥了潜在的作用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Plant signaling & behavior

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