Exposure to Bisphenol F and Bisphenol S during development induces autism-like endophenotypes in adult Drosophila melanogaster

IF 2.6 3区 医学 Q3 NEUROSCIENCES Neurotoxicology and teratology Pub Date : 2024-03-28 DOI:10.1016/j.ntt.2024.107348
Elize A. Santos Musachio , Stefani da Silva Andrade , Luana Barreto Meichtry , Eliana Jardim Fernandes , Pamela Piardi de Almeida , Dieniffer Espinosa Janner , Mustafa Munir Mustafa Dahleh , Gustavo Petri Guerra , Marina Prigol
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Abstract

Bisphenol F (BPF) and Bisphenol S (BPS) are being widely used by the industry with the claim of “safer substances”, even with the scarcity of toxicological studies. Given the etiological gap of autism spectrum disorder (ASD), the environment may be a causal factor, so we investigated whether exposure to BPF and BPS during the developmental period can induce ASD-like modeling in adult flies. Drosophila melanogaster flies were exposed during development (embryonic and larval period) to concentrations of 0.25, 0.5, and 1 mM of BPF and BPS, separately inserted into the food. When they transformed into pupae were transferred to a standard diet, ensuring that the flies (adult stage) did not have contact with bisphenols. Thus, after hatching, consolidated behavioral tests were carried out for studies with ASD-type models in flies. It was observed that 1 mM BPF and BPS caused hyperactivity (evidenced by open-field test, negative geotaxis, increased aggressiveness and reproduction of repetitive behaviors). The flies belonging to the 1 mM groups of BPF and BPS also showed reduced cognitive capacity, elucidated by the learning behavior through aversive stimulus. Within the population dynamics that flies exposed to 1 mM BPF and 0.5 and 1 mM BPS showed a change in social interaction, remaining more distant from each other. Exposure to 1 mM BPF, 0.5 and 1 mM BPS increased brain size and reduced Shank immunoreactivity of adult flies. These findings complement each other and show that exposure to BPF and BPS during the development period can elucidate a model with endophenotypes similar to ASD in adult flies. Furthermore, when analyzing comparatively, BPS demonstrated a greater potential for damage when compared to BPF. Therefore, in general these data sets contradict the idea that these substances can be used freely.

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发育过程中暴露于双酚 F 和双酚 S 会诱导成年黑腹果蝇出现类似自闭症的内表型。
双酚 F(BPF)和双酚 S(BPS)以 "更安全的物质 "的口号被工业界广泛使用,但其毒理学研究却很少。鉴于自闭症谱系障碍(ASD)的病因学差异,环境可能是一个致病因素,因此我们研究了在发育期暴露于 BPF 和 BPS 是否会诱导成年果蝇产生类似 ASD 的模型。黑腹果蝇在发育期间(胚胎期和幼虫期)暴露于浓度分别为 0.25、0.5 和 1 mM 的 BPF 和 BPS。当它们转化为蛹时,将其转移到标准食物中,确保苍蝇(成虫阶段)不与双酚接触。因此,在孵化后,对苍蝇的 ASD 类型模型研究进行了综合行为测试。结果表明,1 毫摩尔的 BPF 和 BPS 会导致过度活跃(表现为开场试验、负地轴、攻击性增加和重复行为再现)。属于 1 mM BPF 和 BPS 组的苍蝇还表现出认知能力下降,通过厌恶刺激的学习行为可以说明这一点。在种群动态中,暴露于 1 mM BPF 和 0.5 和 1 mM BPS 的苍蝇显示出社会互动的变化,彼此间的距离更远。暴露于 1 mM BPF、0.5 mM 和 1 mM BPS 的成蝇脑体积增大,Shank 免疫反应降低。这些发现相辅相成,表明在成蝇发育期间暴露于 BPF 和 BPS 可阐明一种具有与 ASD 相似内表型的模型。此外,在进行比较分析时,与 BPF 相比,BPS 显示出更大的潜在损害。因此,总的来说,这些数据组与这些物质可以随意使用的观点相矛盾。
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来源期刊
CiteScore
5.60
自引率
10.30%
发文量
48
审稿时长
58 days
期刊介绍: Neurotoxicology and Teratology provides a forum for publishing new information regarding the effects of chemical and physical agents on the developing, adult or aging nervous system. In this context, the fields of neurotoxicology and teratology include studies of agent-induced alterations of nervous system function, with a focus on behavioral outcomes and their underlying physiological and neurochemical mechanisms. The Journal publishes original, peer-reviewed Research Reports of experimental, clinical, and epidemiological studies that address the neurotoxicity and/or functional teratology of pesticides, solvents, heavy metals, nanomaterials, organometals, industrial compounds, mixtures, drugs of abuse, pharmaceuticals, animal and plant toxins, atmospheric reaction products, and physical agents such as radiation and noise. These reports include traditional mammalian neurotoxicology experiments, human studies, studies using non-mammalian animal models, and mechanistic studies in vivo or in vitro. Special Issues, Reviews, Commentaries, Meeting Reports, and Symposium Papers provide timely updates on areas that have reached a critical point of synthesis, on aspects of a scientific field undergoing rapid change, or on areas that present special methodological or interpretive problems. Theoretical Articles address concepts and potential mechanisms underlying actions of agents of interest in the nervous system. The Journal also publishes Brief Communications that concisely describe a new method, technique, apparatus, or experimental result.
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