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载有茚虫威的荧光介孔硅纳米粒子,可有效防治小菜蛾并降低其解毒酶活性。

Indoxacarb-loaded fluorescent mesoporous silica nanoparticles for effective control of Plutella xylostella L. with decreased detoxification enzymes activities.

机构信息

Institute of Plant Protection, Chinese Academy of Agricultural Sciences, Beijing, P. R. China.

出版信息

Pest Manag Sci. 2020 Nov;76(11):3749-3758. doi: 10.1002/ps.5924. Epub 2020 Jun 9.

DOI:10.1002/ps.5924
PMID:32431091
Abstract

BACKGROUND

Plutella xylostella L. is a cosmopolitan lepidopteron insect pest for numerous vegetables and crops. The extensive use of insecticides has resulted in the emergence of resistance in P. xylostella. Thus, development of innovative strategies to overcome the insecticide resistance and control P. xylostella effectively is highly desirable. Inspired by the concept and breakthrough of nanomedical strategies to treat multidrug resistance, nanotechnology may find potential application in overcoming or delaying insecticide resistance.

RESULTS

Carbon dots-embedded fluorescent mesoporous silica nanoparticles (FL-SiO NPs) were successfully developed. Indoxacarb-loaded nanoparticles (IN@FL-SiO NPs) were facilely prepared with loading content of 24%. The release of indoxacarb from IN@FL-SiO NPs was pH sensitive. IN@FL-SiO NPs exhibited better insecticidal activity against P. xylostella than indoxacarb technical under the same doses of active ingredient applied. Moreover, the activities of detoxification enzymes including GST, CarE, and P450 of P. xylostella were suppressed by treatment with IN@FL-SiO NPs. Furthermore, the entry of FL-SiO NPs into the midgut of P. xylostella was confirmed by CLSM observation.

CONCLUSIONS

Although there is no absolute correlation between the enzyme activity and resistance, the change in corresponding enzyme activity can afford valuable information on the resistance situation. IN@FL-SiO NPs treated P. xylostella displayed higher mortality, along with decreased enzymes activities, which indicates that nano-based delivery system of insecticide could be potentially applied in insecticide resistance management. © 2020 Society of Chemical Industry.

摘要

背景

小菜蛾是一种世界性鳞翅目昆虫害虫,危害众多蔬菜和作物。杀虫剂的广泛使用导致小菜蛾产生了抗药性。因此,开发克服抗药性和有效控制小菜蛾的创新策略是非常必要的。受纳米医学策略治疗多药耐药性的概念和突破的启发,纳米技术可能在克服或延缓杀虫剂抗性方面找到潜在的应用。

结果

成功开发了嵌入碳点的荧光介孔硅纳米粒子(FL-SiO NPs)。通过简便的方法制备了载有 24%有效成分茚虫威的纳米粒子(IN@FL-SiO NPs)。载有茚虫威的纳米粒子(IN@FL-SiO NPs)的释放具有 pH 敏感性。与相同剂量的有效成分相比,IN@FL-SiO NPs 对小菜蛾具有更好的杀虫活性。此外,小菜蛾体内的 GST、CarE 和 P450 解毒酶的活性在经 IN@FL-SiO NPs 处理后被抑制。此外,通过 CLSM 观察证实了 FL-SiO NPs 进入小菜蛾中肠。

结论

尽管酶活性与抗性之间没有绝对的相关性,但相应酶活性的变化可以为抗性情况提供有价值的信息。经 IN@FL-SiO NPs 处理的小菜蛾死亡率更高,同时酶活性降低,这表明基于纳米的杀虫剂传递系统可能潜在地应用于杀虫剂抗性管理。 © 2020 英国化学学会。

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