Mutagenicity of the agriculture pesticide chlorothalonil assessed by somatic mutation and recombination test in Drosophila melanogaster

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-09-12 DOI:10.1002/em.22630
Bruno Veber, Mariana do Amaral Flores, Mauricio Lehmann, Carlos Eduardo da Rosa, Mariana Leivas Müller Hoff
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Abstract

Chlorothalonil (CTL) is a pesticide widely used in Brazil, yet its mutagenic potential is not fully determined. Thus, we assessed the mutagenicity of CTL and its bioactivation metabolites using the somatic mutation and recombination test (SMART) in Drosophila melanogaster, by exposing individuals, with basal and high bioactivation capacities (standard and high bioactivation cross offspring, respectively), from third instar larval to early adult fly stages, to CTL-contaminated substrate (0.25, 1, 10 or 20 μM). This substrate served as food and as physical medium. Increased frequency of large single spots in standard cross flies' wings exposed to 0.25 μM indicates that, if CTL is genotoxic, it may affect Drosophila at early life stages. Since the total spot frequency did not change, CTL cannot be considered mutagenic in SMART. The same long-term exposure design was performed to test whether CTL induces oxidative imbalance in flies with basal (wild-type, WT) or high bioactivation (ORR strain) levels. CTL did not alter reactive oxygen species and antioxidant capacity against peroxyl radicals levels in adult flies. However, lipid peroxidation (LPO) levels were increased in WT male flies exposed to 1 μM CTL. SMART and LPO alterations were observed only in flies with basal bioactivation levels, pointing to direct CTL toxicity to DNA and lipids. Survival, emergence and locomotor behavior were not affected, indicating no bias due to lethality, developmental and behavioral impairment. We suggest that, if related to CTL exposure, DNA and lipid damages may be residual damage of earlier life stages of D. melanogaster.

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通过黑腹果蝇体细胞突变和重组试验评估农用杀虫剂百菌清的致突变性
百菌清(CTL)是巴西广泛使用的一种杀虫剂,但其诱变潜力尚未完全确定。因此,我们使用体细胞突变和重组试验(SMART)评估了 CTL 及其生物活化代谢物在黑腹果蝇中的致突变性,方法是将具有基本生物活化能力和高生物活化能力的个体(分别为标准和高生物活化杂交后代)从三龄幼虫阶段到成蝇早期阶段暴露于受 CTL 污染的基质(0.25、1、10 或 20 μM)中。这种基质既是食物,也是物理介质。暴露于 0.25 μM 的标准杂交蝇翅膀上的大单个斑点频率增加表明,如果 CTL 具有基因毒性,它可能会在果蝇生命的早期阶段对其产生影响。由于总斑点频率没有变化,因此不能认为 CTL 在 SMART 中具有诱变作用。同样的长期暴露设计还用于检测 CTL 是否会诱导基础水平(野生型,WT)或高生物活化水平(ORR 株系)的果蝇出现氧化失衡。CTL 并未改变成蝇体内的活性氧和抗过氧自由基的抗氧化能力。然而,在暴露于 1 μM CTL 的 WT 雄蝇中,脂质过氧化(LPO)水平升高。只有在具有基础生物活化水平的苍蝇中才能观察到 SMART 和 LPO 的改变,这表明 CTL 对 DNA 和脂质具有直接毒性。存活率、萌发率和运动行为未受影响,这表明致死率、发育和行为损伤不会导致偏差。我们认为,如果与 CTL 暴露有关,DNA 和脂质损伤可能是黑腹蝇早期生命阶段的残余损伤。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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