Guangxi Key Laboratory of Agric-Environment and Agric-Product Safety, National Demonstration Center for Experimental Plant Science Education, College of Agriculture, Guangxi University, Nanning, Guangxi, People's Republic of China.
Pest Manag Sci. 2022 Jun;78(6):2618-2628. doi: 10.1002/ps.6896. Epub 2022 Apr 19.
Fall armyworm (FAW, Spodoptera frugiperda) is one of the most destructive and invasive pests worldwide and causes significant economic losses. Intensive and frequent use of insecticides has led to the development of resistance in FAW. Adipokinetic hormone (AKH) have been proven to be involved in insecticide resistance in insects. However, the molecular mechanism underlying chlorantraniliprole resistance mediated by AKH signaling in FAW remains unclear.
The expression of SpfAKHR was highest in male adults and lowest in 1st instar larvae. SpfAKH was expressed the highest in eggs and the lowest in 6th instar larvae. AKH signaling was involved in the sensitivity of FAW to chlorantraniliprole through a toxicological bioassay, and the combination of chlorantraniliprole and bithionol (an inhibitor of key enzymes in the AKH pathway) significantly increased the mortality of FAW. Chlorantraniliprole significantly induced the expression of ten P450s, SpfAKH and SpfAKHR in FAW. RNA interference against SpfAKHR significantly decreased the P450 content, downregulated the expression of three P450 genes (SpfCYP6B50, SpfCYP321A9 and SpfCYP9A58) and inhibited the resistance of FAW to chlorantraniliprole. The topical application of AKH peptide significantly increased the P450 content, upregulated the expression of five P450 genes (SpfCYP321A9, SpfCY321A8, SpfCYP321A10, SpfCYP321A7 and SpfCYP6AB12), and enhanced the survival of FAW against chlorantraniliprole.
AKH plays an important role in enhancing chlorantraniliprole resistance in FAW by exerting a positive influence on P450 gene expression and P450 content. These results provide valuable insights into insecticide resistance regulation and FAW control strategies. © 2022 Society of Chemical Industry.
秋粘虫(FAW,Spodoptera frugiperda)是世界上最具破坏性和入侵性的害虫之一,造成了巨大的经济损失。杀虫剂的密集和频繁使用导致了 FAW 的抗药性发展。现已证明,激素(AKH)参与了昆虫的抗药性。然而,FAW 中 AKH 信号介导的氯虫腈抗性的分子机制尚不清楚。
SpfAKHR 的表达在雄性成虫中最高,在 1 龄幼虫中最低。SpfAKH 在卵中表达最高,在 6 龄幼虫中表达最低。通过毒理学生物测定,AKH 信号参与了 FAW 对氯虫腈的敏感性,氯虫腈与双硫磷(AKH 途径关键酶抑制剂)联合使用显著增加了 FAW 的死亡率。氯虫腈显著诱导了 FAW 中 10 种 P450、SpfAKH 和 SpfAKHR 的表达。SpfAKHR 的 RNA 干扰显著降低了 P450 含量,下调了三个 P450 基因(SpfCYP6B50、SpfCYP321A9 和 SpfCYP9A58)的表达,并抑制了 FAW 对氯虫腈的抗性。AKH 肽的局部应用显著增加了 P450 含量,上调了五个 P450 基因(SpfCYP321A9、SpfCY321A8、SpfCYP321A10、SpfCYP321A7 和 SpfCYP6AB12)的表达,并增强了 FAW 对氯虫腈的存活能力。
AKH 通过对 P450 基因表达和 P450 含量产生积极影响,在增强 FAW 对氯虫腈的抗性方面发挥了重要作用。这些结果为昆虫抗药性调控和 FAW 防治策略提供了有价值的见解。© 2022 化学工业协会。
