Laboratory of Tropical Veterinary Medicine and Vector Biology, School of Life Sciences, Hainan University, Haikou, China.
One Health Institute, Hainan University, Haikou, China.
Pest Manag Sci. 2022 Oct;78(10):4173-4182. doi: 10.1002/ps.7035. Epub 2022 Jul 5.
Ionotropic γ-aminobutyric acid (iGABA) receptors are involved in various physiological activities in insects, including sleep, olfactory memory, movement, and resistance to viruses. Ivermectin and fluralaner can disturb the insect nervous system by binding to iGABA receptors, and are therefore an effective means for controlling insect pests. However, the molecular mechanisms underlying the insecticidal effect of both the compounds on Aedes. aegypti remain unexplored.
In this study, we investigated the spatiotemporal expression profile of Ae. aegypti RDL (Ae-RDL), a subunit of iGABA receptor. RDL dsRNA suppressed the expression of Ae-RDL mRNA in Ae. aegypti larvae and adult by 60% and 50.67%, resepectly. However, the physiology of Ae. aegypti larvae was not significantly affected. The mortality of Ae. aegypti larvae and adult females subjected to Ae-RDL knockdown significantly decreased after exposure to ivermectin and fluralaner. Additionally, Ae-RDL was cloned into Xenopus laevis oocytes and characterized using the two-electrode voltage-clamp method. The inward current was induced by GABA binding to the functional Ae-RDL homomeric receptors at a median effective concentration (EC ) of 100.4 ± 59.95 μM (n > 3). The significant inhibitory effect of ivermectin and fluralaner on inward current indicated that both insecticides exerted a significant antagonistic effect on Ae-RDL. However, ivermectin also showed strong agonistic as well as weak activation effects on Ae-RDL. These contrasting effects of ivermectin on Ae-RDL depended on ivermectin concentration.
Our study revealed that Ae-RDL subunit is a target of ivermectin and fluralaner, providing new insights into the insecticidal mechanism of both compounds in Ae. aegypti. © 2022 Society of Chemical Industry.
离子型 γ-氨基丁酸(iGABA)受体参与昆虫的各种生理活动,包括睡眠、嗅觉记忆、运动和抵抗病毒。伊维菌素和氟虫腈可以通过与 iGABA 受体结合来扰乱昆虫神经系统,因此是控制害虫的有效手段。然而,这两种化合物对埃及伊蚊的杀虫作用的分子机制仍未得到探索。
在这项研究中,我们研究了埃及伊蚊 RDL(Ae-RDL)的时空表达谱,Ae-RDL 是 iGABA 受体的一个亚基。RDL dsRNA 抑制埃及伊蚊幼虫和成虫 Ae-RDL mRNA 的表达分别为 60%和 50.67%。然而,埃及伊蚊幼虫的生理机能没有受到显著影响。在暴露于伊维菌素和氟虫腈后,Ae-RDL 敲低的埃及伊蚊幼虫和雌性成虫的死亡率显著降低。此外,Ae-RDL 被克隆到非洲爪蟾卵母细胞中,并使用双电极电压钳法进行了表征。GABA 与功能性 Ae-RDL 同型受体结合可诱导内向电流,其半数有效浓度(EC )为 100.4 ± 59.95 μM(n > 3)。伊维菌素和氟虫腈对内向电流的显著抑制作用表明,这两种杀虫剂对 Ae-RDL 均具有显著的拮抗作用。然而,伊维菌素对 Ae-RDL 也表现出强烈的激动作用和较弱的激活作用。伊维菌素对 Ae-RDL 的这些相反作用取决于伊维菌素的浓度。
本研究表明 Ae-RDL 亚基是伊维菌素和氟虫腈的靶标,为这两种化合物在埃及伊蚊中的杀虫机制提供了新的见解。© 2022 化学工业协会。
