Abstract
Insects experience a diversity of subtoxic and/or toxic xenobiotics through exposure to pesticides and, in the case of herbivorous insects, through plant defensive compounds in their diets. Many insects are also concurrently exposed to antioxidants in their diets. The impact of dietary antioxidants on the toxicity of xenobiotics in insects is not well understood, in part due to the challenge of developing appropriate systems in which doses and exposure times (of both the antioxidants and the xenobiotics) can be controlled and outcomes can be easily measured. However, in Drosophila melanogaster, a well-established insect model system, both dietary factors and pesticide exposure can be easily controlled. Additionally, the mode of action and xenobiotic metabolism of dichlorodiphenyltrichloroethane (DDT), a highly persistent neurotoxic organochlorine insecticide that is detected widely in the environment, have been well studied in DDT-susceptible and -resistant strains. Using a glass-vial bioassay system with blue diet as the food source, seven compounds with known antioxidant effects (ascorbic acid, β-carotene, glutathione, α-lipoic acid, melatonin, minocycline, and serotonin) were orally tested for their impact on DDT toxicity across three strains of D. melanogaster: one highly susceptible to DDT (Canton-S), one mildly susceptible (91-C), and one highly resistant (91-R). Three of the antioxidants (serotonin, ascorbic acid, and β-carotene) significantly impacted the toxicity of DDT in one or more strains. Fly strain and gender, antioxidant type, and antioxidant dose all affected the relative toxicity of DDT. Our work demonstrates that dietary antioxidants can potentially alter the toxicity of a xenobiotic in an insect population.
Highlights
ObjectivesThe objective of this study was to learn how seven different antioxidants impacted the resistance levels of D. melanogaster to DDT and whether gender and genotype influenced the efficacy of antioxidants in modifying DDT toxicity
Pesticide resistance is an ongoing problem for those tasked with pest management [1]
The toxicities of DDT following a 24 h contact exposure using the vial bioassay of the CantonS, 91-C, and 91-R strains of D. melanogaster are given in Table 1 and S1 Fig. The Canton-S strain was the most susceptible to DDT, with LC50 values of 4.32 and 0.87 μg/vial DDT for females and males, respectively
Summary
The objective of this study was to learn how seven different antioxidants impacted the resistance levels of D. melanogaster to DDT and whether gender and genotype influenced the efficacy of antioxidants in modifying DDT toxicity
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