Liao Yan-Mei, Cheng Long, Luo Rong-Shuang, Guo Qian, Shao Wu-Bin, Feng Yu-Mei, Zhou Xiang, Liu Li-Wei, Yang Song
State Key Laboratory of Green Pesticides, Key Laboratory of Green Pesticide and Agricultural Bioengineering, Ministry of Education, Center for R&D of Fine Chemicals of Guizhou University, Guiyang 550025, China.
J Agric Food Chem. 2024 Dec 18;72(50):27750-27761. doi: 10.1021/acs.jafc.4c05234. Epub 2024 Dec 3.
Tobacco mosaic virus (TMV), a representative plant virus, is widely known and causes severe crop losses worldwide. In order to ensure the demand for crop and food security, the exploration of novel antiviral agents with outstanding activity and unique mechanisms of action is necessary. Herein, 40 new azole-quinolinone molecules were elaborately designed and systematically evaluated for their anti-TMV activity. Notably, compound had significant therapeutic activity against TMV (EC value = 200 μg/mL), which was superior to commercial ningnanmycin (280 μg/mL). Studies on the anti-TMV mechanism showed that compound could suppress the expression level of important TMV genes and affect the assembly of TMV viral particles by disrupting the self-assembly process of TMV coat protein (TMV-CP). In-depth antiviral behaviors were verified by molecular docking, fluorescence titration analysis, and TMV assembly assays, suggesting that compound strongly interacted with TMV coat protein through various interactions. Overall, this promising work discloses a new paradigm for the exploitation of 2-quinolinone-based virucidal agents for hindering plant viral infection through triggering versatile antiviral behavior.
烟草花叶病毒(TMV)是一种典型的植物病毒,广为人知且在全球范围内导致严重的作物损失。为了确保作物需求和粮食安全,有必要探索具有卓越活性和独特作用机制的新型抗病毒剂。在此,精心设计了40种新的唑啉酮分子,并对其抗TMV活性进行了系统评估。值得注意的是,化合物对TMV具有显著的治疗活性(EC值 = 200 μg/mL),优于市售的宁南霉素(280 μg/mL)。抗TMV机制研究表明,化合物可抑制重要TMV基因的表达水平,并通过破坏TMV外壳蛋白(TMV-CP)的自组装过程影响TMV病毒粒子的组装。通过分子对接、荧光滴定分析和TMV组装试验验证了深入的抗病毒行为,表明化合物通过各种相互作用与TMV外壳蛋白强烈相互作用。总体而言,这项有前景的工作揭示了一种新的模式,即开发基于2-喹啉酮的杀病毒剂,通过触发多种抗病毒行为来阻碍植物病毒感染。
