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Insecticide resistance by a host-symbiont reciprocal detoxification.

Yuya SatoSeonghan JangKazutaka TakeshitaHideomi ItohHideaki KoikeKanako TagoMasahito HayatsuTomoyuki HoriYoshitomo Kikuchi
Published in: Nature communications (2021)
Insecticide resistance is one of the most serious problems in contemporary agriculture and public health. Although recent studies revealed that insect gut symbionts contribute to resistance, the symbiont-mediated detoxification process remains unclear. Here we report the in vivo detoxification process of an organophosphorus insecticide, fenitrothion, in the bean bug Riptortus pedestris. Using transcriptomics and reverse genetics, we reveal that gut symbiotic bacteria degrade this insecticide through a horizontally acquired insecticide-degrading enzyme into the non-insecticidal but bactericidal compound 3-methyl-4-nitrophenol, which is subsequently excreted by the host insect. This integrated "host-symbiont reciprocal detoxification relay" enables the simultaneous maintenance of symbiosis and efficient insecticide degradation. We also find that the symbiont-mediated detoxification process is analogous to the insect genome-encoded fenitrothion detoxification system present in other insects. Our findings highlight the capacity of symbiosis, combined with horizontal gene transfer in the environment, as a powerful strategy for an insect to instantly eliminate a toxic chemical compound, which could play a critical role in the human-pest arms race.
Keyphrases
  • aedes aegypti
  • zika virus
  • public health
  • single cell
  • endothelial cells
  • mental health
  • climate change
  • gene expression
  • transcription factor
  • global health