家蚕微孢子虫SWP9与极管蛋白之间的相互作用以及SWP9作为支架蛋白的功能有助于极管与孢子壁的连接。

Interaction between SWP9 and Polar Tube Proteins of the Microsporidian Nosema bombycis and Function of SWP9 as a Scaffolding Protein Contribute to Polar Tube Tethering to the Spore Wall.

作者信息

Yang Donglin, Pan Lixia, Peng Pai, Dang Xiaoqun, Li Chunfeng, Li Tian, Long Mengxian, Chen Jie, Wu Yujiao, Du Huihui, Luo Bo, Song Yue, Tian Rui, Luo Jie, Zhou Zeyang, Pan Guoqing

机构信息

State Key Laboratory of Silkworm Genome Biology, Southwest University, Chongqing, People's Republic of China.

International Academy of Targeted Therapeutics and Innovation, Chongqing Key Laboratory of Kinase Modulators as Innovative Medicine, Chongqing Engineering Laboratory of Targeted and Innovative Therapeutics, Chongqing University of Arts and Sciences, Chongqing, People's Republic of China.

出版信息

Infect Immun. 2017 Feb 23;85(3). doi: 10.1128/IAI.00872-16. Print 2017 Mar.

DOI:10.1128/IAI.00872-16

PMID:28031263

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5328477/

Abstract

All microsporidia possess a unique, highly specialized invasion mechanism that involves the polar tube and spore wall. The interaction between spore wall proteins (SWPs) and polar tube proteins (PTPs) in the formation, arrangement, orderly orientation, and function of the polar tube and spore wall remains to be determined. This study was undertaken to examine the protein interactions of SWP7 (NbSWP7), NbSWP9, and PTPs. Coimmunoprecipitation, liquid chromatography-tandem mass spectrometry (LC-MS/MS), and yeast two-hybrid data demonstrated that NbSWP9, but not NbSWP7, interacts with NbPTP1 and NbPTP2. Furthermore, immunoelectron microscopy (IEM) showed that NbSWP9 was localized mainly in the developing polar tube of sporoblasts, while NbSWP7 was found randomly in the cytoplasm. However, both NbSWP9 and NbSWP7 were located in the polar tube and spore wall of mature spores. The reason why NbSWP7 was localized to the polar tube may be due to the interaction between NbSWP9 and NbSWP7. Interestingly, the majority of NbSWP9, but not NbSWP7, accumulated in the beginning part of the extruded polar tube and the ruptured spore wall called the anchoring disk (AD) when the mature spores germinated under weak-alkaline environmental stimulation. Additionally, anti-NbSWP9 antibody reduced spore germination in a dose-dependent manner. In conclusion, our study further confirmed that NbSWP9 is a scaffolding protein that not only anchors and holds the polar tube but also tethers the polar tube to the spore wall.

摘要

所有微孢子虫都拥有一种独特的、高度专业化的入侵机制，该机制涉及极管和孢子壁。孢子壁蛋白（SWP）与极管蛋白（PTP）在极管和孢子壁的形成、排列、有序定向及功能方面的相互作用仍有待确定。本研究旨在检测SWP7（NbSWP7）、NbSWP9和PTP之间的蛋白质相互作用。免疫共沉淀、液相色谱-串联质谱（LC-MS/MS）以及酵母双杂交数据表明，与NbPTP1和NbPTP2相互作用的是NbSWP9，而非NbSWP7。此外，免疫电子显微镜（IEM）显示，NbSWP9主要定位于成孢子细胞发育中的极管，而NbSWP7随机分布于细胞质中。然而，NbSWP9和NbSWP7都位于成熟孢子的极管和孢子壁中。NbSWP7定位于极管的原因可能是NbSWP9与NbSWP7之间的相互作用。有趣的是，当成熟孢子在弱碱性环境刺激下萌发时，大部分NbSWP9（而非NbSWP7）积聚在挤出的极管起始部分以及称为锚定盘（AD）的破裂孢子壁中。此外，抗NbSWP9抗体以剂量依赖方式降低孢子萌发率。总之，我们的研究进一步证实，NbSWP9是一种支架蛋白，它不仅锚定并固定极管，还将极管与孢子壁相连。

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