甲维盐胁迫调控雷帕霉素诱导下松材线虫的生存、繁殖及自噬相关基因的表达OA
Emamectin benzoate stress regulates the survival,reproduction,and autophagy-related gene expression of Bursaphelenchus xylophilus(Nematoda:Aphelenchoididae)under rapamycin induction
[目的]本研究旨在探究自噬在松材线虫Bursaphelenchus xylophilus抵御环境友好型农药甲维盐胁迫中的作用,以解决长期单一用药易导致抗性的问题.[方法]采用浸渍法测定甲维盐对松材线虫成虫的24 h毒力;分别使用0.5和50 mmol/L雷帕霉素诱导松材线虫成虫细胞自噬再用0.2,0.4,0.6,0.8和1.0 mg/L甲维盐处理24 h,计算松材线虫成虫的死亡率;LC20浓度(0.30 mg/L)和致死中浓度(median lethal concentration,LC50)(1.14 mg/L)甲维盐处理经 50 mmol/L 雷帕霉素处理1 h时的松材线虫成虫,计算处理后7 d时成虫的繁殖量;PCR克隆松材线虫自噬相关基因BxATG2,BxATG11 和BxATG18并进行生物信息学分析;用50 mmol/L雷帕霉素处理后再用LC50浓度(1.14 mg/L)和高浓度(3.20 mg/L)甲维盐处理松材线虫成虫24 h时,采用qRT-PCR检测松材线虫成虫关键自噬相关基因(BxATG2,BxATG6,BxATG10,BxATG11,BxATG12和BxATG18)的表达量.[结果]松材线虫成虫死亡率随甲维盐浓度升高而增加,甲维盐对松材线虫成虫24 h的LC20和LC50值分别为0.30和1.14 mg/L.经雷帕霉素诱导自噬后,甲维盐对松材线虫成虫的致死率有所下降.松材线虫成虫繁殖量随甲维盐浓度升高而降低,雷帕霉素诱导后繁殖量略有上升,但变化不显著.成功克隆的自噬相关基因BxATG2,BxATG11 和BxATG18的编码蛋白与近缘线虫同源蛋白具有较高的氨基酸序列一致性;BxATG2,BxATG11和BxATG18均为酸性疏水蛋白,无信号肽和跨膜区;BxATG2,BxATG11和BxATG18与伞滑刃属Bursaphelenchus线虫相应蛋白亲缘关系最近.50 mmol/L雷帕霉素预处理本身即显著改变了 BxATG11 和BxATG12 的表达,1.14和3.20 mg/L甲维盐处理均上调了 BxATG2,BxATG6,BxATG10,BxATG11 和 BxATG18 的表达,50 mmol/L 雷帕霉素诱导后进一步增强了甲维盐(尤其是3.20 mg/L高浓度)对BxATG2,BxATG6,BxATG10,BxATG11和BxATG18的上调作用.[结论]细胞自噬在松材线虫成虫抵御甲维盐胁迫中发挥重要作用,雷帕霉素可通过诱导体内自噬相关基因(如BxATG2,BxATG6,BxATG10,BxATG11和BxATG18)的表达,增强松材线虫对甲维盐的抵抗力.本研究深化了对生物适应性演化的认识,为开发基于调控自噬通路的新型松材线虫病防控策略提供了理论依据和参考.
[Aim]This study aims to explore the role of autophagy in the resistance of Bursaphelenchus xylophilus to environmentally friendly pesticide emamectin benzoate stress,so as to address the issue of drug resistance caused by long-term single-agent application.[Methods]The dip method was employed to determine the toxicity of emamectin benzoate to B.xylophilus adults in 24 h.Autophagy was induced in B.xylophilus using 0.5 and 50 mmol/L rapamycin followed by treatment with emamectin benzoate at the concentrations of 0.2,0.4,0.6,0.8 and 1.0 mg/L for 24 h,and the mortality rate of B.xylophilus adults was calculated.The reproduction rates of B.xylophilus adults were measured at 7 d after exposure to emamectin benzoate at LC20(0.30 mg/L)and median lethal concentration(LC50)(1.14 mg/L)following the treatment with 50 mmol/L rapamycin for 1 h.Autophagy-related genes BxATG2,BxATG11 and BxATG18 of B.xylophilus were cloned by PCR and bioinformatically analyzed.qRT-PCR was employed to detect the expression levels of the key autophagy-related genes(BxATG2,BxATG6,BxATG10,BxATG11,BxATG12 and BxATG18)in B.xylophilus adults after exposure to 50 mmol/L rapamycin followed by emamectin benzoate at LC50(1.14 mg/L)and a high concentration(3.20 mg/L)for 24 h.[Results]The mortality rates of B.xylophilus adults increased with the concentrations of emamectin benzoate rising.The LC20 and LC50 values of emamectin benzoate against B.xylophilus adults in 24 h were 0.30 and 1.14 mg/L,respectively.After rapamycin-induced autophagy,the lethality of emamectin benzoate to B.xylophilus adults decreased.The reproduction rates of B.xylophilus adults declined with the concentrations of emamectin benzoate increasing,and showed a slight but non-significant increase following rapamycin induction.The proteins encoded by the successfully cloned autophagy-related genes BxATG2,BxATG11 and BxATG18 exhibited high amino acid sequence identities with the homologs from the closely related nematodes.BxATG2,BxATG11 and BxATG18 were acidic and hydrophobic proteins,lacking signal peptides and transmembrane domains.BxATG2,BxATG11 and BxATG18 were most closely related to their counterparts in nematodes of the genus Bursaphelenchus.Rapamycin pretreatment(50 mmol/L)alone significantly altered the expression of BxATG11 and BxATG12,both 1.14 and 3.20 mg/L emamectin benzoate upregulated the expression of BxATG2,BxATG6,BxATG10,BxATG11 and BxATG18,and after induction by 50 mmol/L rapamycin,the upregulated effects of emamectin benzoate(particularly at the high concentration of 3.20 mg/L)on BxATG2,BxATG6,BxATG11,BxATG12 and BxATG18 were further enhanced.[Conclusion]Cellular autophagy plays a critical role in the defense of B.xylophilus adults against emamectin benzoate stress.Resistance to emamectin benzoate in B.xylophilus adults can be enhanced by the expression induction of autophagy-related genes(such as BxATG2,BxATG6,BxATG10,BxATG11 and BxATG18)through rapamycin.This study deepens the understanding of biological adaptive evolution and provides a theoretical basis and reference for developing novel prevention and control strategies against pine wilt disease based on regulating the autophagy pathway.
张琳沅;薛旗;汪勇;曹夏意;闵莉静;张立钦;刘浩然;张雪柯
湖州师范学院生命科学学院,湖州 313000湖州学院生命科学学院,湖州 313000湖州师范学院生命科学学院,湖州 313000湖州师范学院生命科学学院,湖州 313000湖州师范学院生命科学学院,湖州 313000湖州师范学院生命科学学院,湖州 313000湖州师范学院生命科学学院,湖州 313000湖州师范学院生命科学学院,湖州 313000
生物科学
松材线虫自噬相关基因甲维盐雷帕霉素存活繁殖
Bursaphelenchus xylophilusautophagy-related genesemamectin benzoaterapamycinsurvivalreproduction
《昆虫学报》 2026 (2)
203-213,11
国家重点研发计划项目(2021YFC2600104)湖州学院2022年校级科研项目(2022HXKM02)
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