Ma Hua-Yu, Kong Yu, Geng Chao, Tian Yan-Ping, Jiang Jun, Yan Zhi-Yong, Li Xiang-Dong
Department of Plant Pathology, College of Plant Protection, Shandong Agricultural University, Tai'an, Shandong, China.
Shandong Key Laboratory for Green Prevention and Control of Agricultural Pests, Institute of Plant Protection, Shandong Academy of Agricultural Sciences, Ji'nan, Shandong, China.
Plant Biotechnol J. 2025 Aug;23(8):3237-3253. doi: 10.1111/pbi.70138. Epub 2025 May 23.
To establish systemic infection, plant viruses must replicate, and conduct intra- and intercellular movement and long-distance movement, all of which require the participation of host factors. Tobamoviruses move in the form of movement protein (MP)-viral RNA complex and utilize endocytosis for intracellular movement. However, how tobamoviral MPs hijack host factors to reach the plasma membrane (PM) and then plasmodesmata (PD) is still largely unknown. Tomato brown rugose fruit virus (ToBRFV) is an emerging tobamovirus that mainly infects tomatoes and peppers. Here, we show that tomato RabE1a, a small Rab GTPase, interacts with ToBRFV MP and participates in the movement of ToBRFV. Knocking out RabE1a in tomatoes could inhibit infection by ToBRFV. RabE1a positively regulates MP transport to the PM, and this transport process is regulated by its nucleotide-binding state. Furthermore, RabE1a interacts with the exocyst subunit SEC10b to jointly regulate MP transport to the PM and intracellular movement of ToBRFV. The adaptor protein AP2β interacts with MP and transports MP from the PM to the PD for intercellular movement of ToBRFV. We further find that knocking out RabE1a could also inhibit the infection of other tobamoviruses. In summary, MP exocytosis is coregulated by RabE1a and the exocyst subunit SEC10b for transport to the PM, where it then uses AP2β-regulated endocytosis to PD. These results provide a comprehensive overview of tobamoviral MP intracellular transport and are insightful for breeding tomato plants resistant to ToBRFV and related tobamoviruses.
为了建立系统性感染,植物病毒必须进行复制,并进行细胞内和细胞间运动以及长距离运动,所有这些都需要宿主因子的参与。烟草花叶病毒属病毒以运动蛋白(MP)-病毒RNA复合体的形式移动,并利用内吞作用进行细胞内运动。然而,烟草花叶病毒属病毒的MP如何劫持宿主因子到达质膜(PM),然后到达胞间连丝(PD),目前仍 largely未知。番茄褐色皱纹果病毒(ToBRFV)是一种新出现的烟草花叶病毒属病毒,主要感染番茄和辣椒。在这里,我们表明番茄RabE1a,一种小的Rab GTP酶,与ToBRFV MP相互作用并参与ToBRFV的运动。在番茄中敲除RabE1a可以抑制ToBRFV的感染。RabE1a正向调节MP向PM的转运,并且这个转运过程受其核苷酸结合状态的调节。此外,RabE1a与外泌体亚基SEC10b相互作用,共同调节MP向PM的转运以及ToBRFV的细胞内运动。衔接蛋白AP2β与MP相互作用,并将MP从PM转运到PD,以实现ToBRFV的细胞间运动。我们进一步发现敲除RabE1a也可以抑制其他烟草花叶病毒属病毒的感染。总之,MP的胞吐作用由RabE1a和外泌体亚基SEC10b共同调节,以转运到PM,然后在PM处利用AP2β调节的内吞作用转运到PD。这些结果全面概述了烟草花叶病毒属病毒MP的细胞内转运,对于培育抗ToBRFV和相关烟草花叶病毒属病毒的番茄植株具有重要意义。
