School of BioSciences, Bio21 Institute, The University of Melbourne, Parkville, Australia.
Pest Manag Sci. 2021 Aug;77(8):3777-3786. doi: 10.1002/ps.6290. Epub 2021 Feb 5.
Insecticide targets are often identified by mutations that confer resistance, but the intricacies of insecticide binding and downstream processes leading to insect death often remain obscure. Mutations in α6-like nicotinic acetylcholine receptor subunit genes have been associated with high levels of resistance to spinosad in many insect species, including Drosophila melanogaster. Here, we aimed to expand our understanding of the effects of the natural product insecticide spinosad on its protein target, the α6 subunit, using genetic tools available in D. melanogaster.
Functional, fluorescently tagged Dα6 subunits (Dα6 ) were developed to allow observation of the protein in vivo. Larvae expressing Dα6 were exposed to a sub-lethal concentration of spinosyn A (0.025 ppm) for 6 days, leading to a 64% reduction in fluorescence relative to unexposed larvae. Direct application of high doses of spinosyn A to dissected larval brains resulted in a visible 38.25% decrease in Dα6 within 20 min, indicating that degradation of the Dα6 protein occurred in response to spinosyn A exposure. Chemical inhibition of the proteasome system using the multiple myeloma treatment drug, PS-341 reduced loss of Dα6 in response to spinosyn A at the 20-min time point to 6.35%. In addition, in vivo administration of PS-341 prior to spinosad exposure reduced the effect of spinosad on larval activity.
Based on these data, we propose that exposure to spinosad leads to degradation of the α6-like target protein, a potentially novel element in the mode of action of spinosyns that may contribute to their toxicity towards insects. © 2021 Society of Chemical Industry.
杀虫剂的靶标通常是通过赋予抗性的突变来确定的,但杀虫剂结合和导致昆虫死亡的下游过程的复杂性往往仍然不清楚。在许多昆虫物种中,包括黑腹果蝇(Drosophila melanogaster),α6 样烟碱型乙酰胆碱受体亚基基因的突变与对斯普诺沙(spinosad)的高水平抗性有关。在这里,我们旨在利用黑腹果蝇中可用的遗传工具,扩展我们对天然产物杀虫剂斯普诺沙对其蛋白质靶标(α6 亚基)的作用的理解。
开发了功能荧光标记的 Dα6 亚基(Dα6),以允许在体内观察该蛋白。表达 Dα6 的幼虫暴露于亚致死浓度的斯普诺沙(0.025ppm)中 6 天,导致与未暴露幼虫相比荧光减少 64%。直接应用高剂量的斯普诺沙 A 到分离的幼虫大脑中,导致 Dα6 在 20 分钟内可见减少 38.25%,表明 Dα6 蛋白在斯普诺沙 A 暴露后发生降解。使用多发性骨髓瘤治疗药物 PS-341 抑制蛋白酶体系统,可将 20 分钟时 Dα6 对斯普诺沙 A 的丢失减少到 6.35%。此外,在暴露于斯普诺沙之前体内给予 PS-341 可降低斯普诺沙对幼虫活性的影响。
基于这些数据,我们提出暴露于斯普诺沙导致 α6 样靶蛋白的降解,这可能是斯普诺沙作用模式的一个新元素,可能有助于其对昆虫的毒性。© 2021 化学工业学会。
