4.7 Article

Towards a Sustainable Management of the Spotted-Wing Drosophila: Disclosing the Effects of Two Spider Venom Peptides on Drosophila suzukii

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INSECTS
卷 14, 期 6, 页码 -

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MDPI
DOI: 10.3390/insects14060533

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gene expression; J-atracotoxin-Hv1c; neurotoxic peptides; spotted-wing drosophila; stress-related pathways; & mu;-theraphotoxin-Hhn2b

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In this study, the biological activity of two underexplored spider venom peptides (J-atracotoxin-Hv1c and mu-theraphotoxin-Hhn2b) against adult D. suzukii flies was assessed, as well as the biological response of flies to these peptides through detoxification mechanisms. Results demonstrate that mu-theraphotoxin-Hhn2b enhanced fly longevity. Gene expression analysis suggests that detoxification and stress-related mechanisms are triggered in D. suzukii flies in response to treatment with these peptides. Our results highlight the potential of venom peptides to control D. suzukii and how to ultimately devise improved target-specific formulations.
Simple Summary: Drosophila suzukii is a major destructive insect pest with a pandemic distribution. The lack of effective green control measures for this pest has prompted the search for new approaches, among which are peptides from animal venom. In this study, the biological activity of two underexplored spider venom peptides (J-atracotoxin-Hv1c and mu-theraphotoxin-Hhn2b) was assessed against adult D. suzukii flies, as well as the biological response of flies to these peptides through detoxification mechanisms. Results demonstrate that mu-theraphotoxin-Hhn2b enhanced fly longevity. Gene expression analysis suggests that detoxification and stress-related mechanisms are triggered in D. suzukii flies in response to treatment with these peptides. Our results highlight the potential of venom peptides to control D. suzukii, underscoring the issue of how to ultimately devise improved target-specific formulations.The spotted-wing drosophila (Drosophila suzukii) is a polyphagous pest that causes severe damage and economic losses to soft-skinned fruit production. Current control methods are dominated by inefficient cultural practices and broad-spectrum insecticides that, in addition to having toxic effects on non-target organisms, are becoming less effective due to acquired resistance. The increasing awareness of the real impact of insecticides on health and the environment has promoted the exploration of new insecticidal compounds, addressing novel molecular targets. This study explores the efficacy of two orally delivered spider venom peptides (SVPs), J-atracotoxin-Hv1c (Hv1c) and mu-theraphotoxin-Hhn2b (TRTX), to manage D. suzukii, through survival assays and the evaluation of gene expression associated with detoxification pathways. Treatment with TRTX at 111.5 mu M for 48 h enhanced fly longevity compared with the control group. Gene expression analysis suggests that detoxification and stress-related mechanisms, such as expression of P450 proteins and apoptotic stimuli signaling, are triggered in D. suzukii flies in response to these treatments. Our results highlight the potential interest of SVPs to control this pest, shedding light on how to ultimately develop improved target-specific formulations.

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