Sublethal pesticide exposure alters stress response, detoxification, and immunity gene expression in larvae of the stingless bee Frieseomelitta varia (Apidae: Meliponini)

IF 5.8 3区环境科学与生态学 0 ENVIRONMENTAL SCIENCES

Environmental Science and Pollution Research Pub Date : 2025-02-17 DOI:10.1007/s11356-025-36111-1

Jaqueline Aparecida da Silva, Cliver Fernandes Farder-Gomes, Juliana Ramos Martins, Angel Roberto Barchuk, Osmar Malaspina, Roberta Cornélio Ferreira Nocelli

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引用次数: 0

Abstract

During foraging, stingless bees are at risk of pesticide contamination from treated field crops. Frieseomellita varia workers, for example, frequently visit pepper plants that are often treated with the herbicide clomazone (CLZ), the fungicide difenoconazole (DFZ), and the insecticide abamectin (ABM). These pesticides pose a threat not only to adult bees but also to larvae when the chemicals are brought back to the nest. This study aimed to evaluate the effects of sublethal concentrations of CLZ, DFZ, and ABM on the expression of stress marker proteins (HSP70AB and HSP83), detoxification enzymes (CYP9Q3, CYP6SA4, and CYTP450), and antimicrobial peptides (abaecin and defen-1) genes in F. varia larvae. First instar larvae were incubated for 48 h in ELISA plates, divided into five groups: Naive (control), acetone (acetone control), CLZ (0.014 ng a.i./µL), DFZ (0.0098 ng a.i./µL), and ABM (0.007 ng a.i./µL). After incubation, total RNA was extracted and analyzed by RT-qPCR to quantify transcript levels. While larval survival was unaffected, significant changes in gene expression patterns were observed. ABM exposure increased HSP70AB expression and decreased HSP83 expression. No changes in CYTP6SA4 expression were detected in bees exposed to any of the pesticides. DFZ suppressed CYP9Q3 expression, while ABM upregulated CYTP450 expression. Notably, the antimicrobial peptide gene abaecin was downregulated by all three compounds, whereas defen-1 expression increased in response to ABM. These findings suggest that sublethal concentrations of these pesticides can significantly alter the expression of genes associated with stress response, detoxification, and immunity in F. varia larvae. The disruption caused by herbicides and fungicides, alongside the known effects of insecticides, may impact bee physiology and colony homeostasis, with potentially unknown consequences for the survival of stingless bees in their natural environment.

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亚致死农药暴露改变无刺蜜蜂幼虫的应激反应、解毒和免疫基因表达。

在觅食过程中，无刺蜜蜂面临着农药污染的风险。例如，鸢尾蚜的工蜂经常造访那些经常被除草剂氯马酮（CLZ）、杀菌剂异苯唑（DFZ）和杀虫剂阿维菌素（ABM）处理过的辣椒植株。这些杀虫剂不仅对成年蜜蜂构成威胁，而且当这些化学物质被带回蜂巢时，对幼虫也构成威胁。本研究旨在评价亚致死浓度的CLZ、DFZ和ABM对不同浓度的黄颡鱼幼虫应激标记蛋白（HSP70AB和HSP83）、解毒酶（CYP9Q3、CYP6SA4和CYTP450）和抗菌肽（abaecin和defen-1）基因表达的影响。1龄幼虫在ELISA板上孵育48 h，分为5组：Naive（对照）、丙酮（丙酮对照）、CLZ （0.014 ng a.i./µL）、DFZ （0.0098 ng a.i./µL）和ABM （0.007 ng a.i./µL）。孵育后提取总RNA， RT-qPCR分析转录物水平。虽然幼虫存活未受影响，但观察到基因表达模式发生了显著变化。ABM暴露使HSP70AB表达升高，HSP83表达降低。暴露于任何杀虫剂的蜜蜂均未检测到CYTP6SA4表达的变化。DFZ抑制CYP9Q3的表达，而ABM上调CYTP450的表达。值得注意的是，抗菌肽基因abaecin被所有三种化合物下调，而defen-1的表达在ABM的反应中增加。这些发现表明，亚致死浓度的农药可以显著改变变异弧菌幼虫应激反应、解毒和免疫相关基因的表达。除草剂和杀菌剂造成的破坏，加上杀虫剂的已知影响，可能会影响蜜蜂的生理和群体稳态，对无刺蜜蜂在自然环境中的生存造成潜在的未知后果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Environmental Science and Pollution Research 环境科学-环境科学

CiteScore

8.70

自引率

17.20%

发文量

6549

审稿时长

3.8 months

期刊介绍： Environmental Science and Pollution Research (ESPR) serves the international community in all areas of Environmental Science and related subjects with emphasis on chemical compounds. This includes: - Terrestrial Biology and Ecology - Aquatic Biology and Ecology - Atmospheric Chemistry - Environmental Microbiology/Biobased Energy Sources - Phytoremediation and Ecosystem Restoration - Environmental Analyses and Monitoring - Assessment of Risks and Interactions of Pollutants in the Environment - Conservation Biology and Sustainable Agriculture - Impact of Chemicals/Pollutants on Human and Animal Health It reports from a broad interdisciplinary outlook.