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Decline in symbiont-dependent host detoxification metabolism contributes to increased insecticide susceptibility of insects under high temperature

Yunhua Zhang, Tingwei Cai, Zhijie Ren, Yu Liu, Maojun Yuan, Yongfeng Cai, Chang Yu, Runhang Shu, Shun He, Jianhong Li, Adam Chun-Nin Wong, Hu Wan

2021The ISME Journal120 citationsDOIOpen Access PDF

Abstract

The interactions between insects and their bacterial symbionts are shaped by a variety of abiotic factors, including temperature. As global temperatures continue to break high records, a great deal of uncertainty surrounds how agriculturally important insect pests and their symbionts may be affected by elevated temperatures, and its implications for future pest management. In this study, we examine the role of bacterial symbionts in the brown planthopper Nilaparvata lugens response to insecticide (imidacloprid) under different temperature scenarios. Our results reveal that the bacterial symbionts orchestrate host detoxification metabolism via the CncC pathway to promote host insecticide resistance, whereby the symbiont-inducible CncC pathway acts as a signaling conduit between exogenous abiotic stimuli and host metabolism. However, this insect-bacterial partnership function is vulnerable to high temperature, which causes a significant decline in host-bacterial content. In particular, we have identified the temperature-sensitive Wolbachia as a candidate player in N. lugens detoxification metabolism. Wolbachia-dependent insecticide resistance was confirmed through a series of insecticide assays and experiments comparing Wolbachia-free and Wolbachia-infected N. lugens and also Drosophila melanogaster. Together, our research reveals elevated temperatures negatively impact insect-bacterial symbiosis, triggering adverse consequences on host response to insecticide (imidacloprid) and potentially other xenobiotics.

Topics & Concepts

BiologyDetoxification (alternative medicine)Host (biology)MetabolismEcologyZoologyBiochemistryAlternative medicineMedicinePathologyInsect symbiosis and bacterial influencesInsect-Plant Interactions and ControlInsect and Pesticide Research
Decline in symbiont-dependent host detoxification metabolism contributes to increased insecticide susceptibility of insects under high temperature | Litcius