Issue 10, 2022

Mitochondria-targeted nanocarriers doubled the toxicity of oxidative phosphorylation and ATP synthesis disruptive insecticides against Spodoptera frugiperda

Abstract

Translocation and delivery of pesticides onto the molecular target is often a limiting step of efficacy, causing excessive use of pesticides and adverse effects on the environment and human health. Advances of nanomaterials have opened up a new avenue for effective translocation and delivery to increase the pesticide efficacy and reduce risks. We successfully synthesized and fully characterized a mesoporous silica nanoparticle-based mitochondria-targeted pesticide nanocarrier for the oxidative phosphorylation and ATP synthesis disruptor chlorfenapyr (Chl). The nanocarriers can be readily absorbed orally and translocated into the midgut and Malpighian duct of Spodoptera frugiperda larvae and target mitochondria at the subcellular level. The Chl loading content on the nanocarrier was up to 35%. The toxicity of the Chl nanocarriers to the 3rd instar S. frugiperda larvae (half-maximum lethal concentration (LC50), 16.4 μg g−1 expressed by the Chl content) was almost doubled relative to Chl alone (LC50 = 30.1 μg g−1). Further research showed that the mitochondria-targeted nanocarrier enhanced Chl efficacy by inducing mitochondrial damage in Sf9 cells, which led to the collapse of the mitochondrial membrane potential and reduction of ATP production. The mitochondria-targeted nanocarriers have great application potential in the formulation of oxidative phosphorylation and ATP synthesis disruptors, which can minimize their potential threats to food/environmental safety.

Graphical abstract: Mitochondria-targeted nanocarriers doubled the toxicity of oxidative phosphorylation and ATP synthesis disruptive insecticides against Spodoptera frugiperda

Article information

Article type
Paper
Submitted
24 मई 2022
Accepted
16 अगस्त 2022
First published
05 सितम्बर 2022

Environ. Sci.: Nano, 2022,9, 3873-3884

Author version available

Mitochondria-targeted nanocarriers doubled the toxicity of oxidative phosphorylation and ATP synthesis disruptive insecticides against Spodoptera frugiperda

Y. Hao, D. Liu, Y. Song, X. Yin, J. Liu, R. Na and Q. X. Li, Environ. Sci.: Nano, 2022, 9, 3873 DOI: 10.1039/D2EN00502F

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