Maternal exposure to tributyltin alters the breast milk, hormonal profile, and thyroid morphology of dams and induces sex-specific changes in neonate rat offspring

IF 7.3 2区环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES

Environmental Pollution Pub Date : 2024-04-13 DOI:10.1016/j.envpol.2024.123963

Rosiane Aparecida Miranda , Daniel Galinis Vieira Lima , Luana Lopes de Souza , Beatriz Souza da Silva , Iala Milene Bertasso , Lilian Guedes Meyer , Camila Lüdke Rossetti , Reinaldo Röpke Junior , Leandro Miranda-Alves , Egberto Gaspar de Moura , Patricia Cristina Lisboa

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Abstract

Tributyltin (TBT) is the chemical substance commonly used worldwide to prevent biofouling of vessels. Due to its ability to bioaccumulate and biomagnify, even after being banned, significant concentrations of TBT can be detected in sediment, affecting marine and human life. Although studies have shown that direct exposure to TBT alters physiological parameters in mammals, the relationship between exposure to TBT during pregnancy and lactation, considered critical windows for metabolic programming, has not been fully elucidated. Our hypothesis is that offspring whose mothers were exposed to TBT during critical stages of development may exhibit dysfunctions in endocrine-metabolic parameters. We used pregnant Wistar rats that were divided into groups and received the following treatments from gestational day 7 until the end of lactation by intragastric gavage: vehicle (ethanol 0.01%; Control), low TBT dose (100 ng/kg of body weight (bw)/day; TBT100ng) and high TBT dose (1000 ng/kg bw/day; TBT1000ng). Dams and offspring at birth and weaning (21 days old) were studied. Maternal exposure to TBT promoted dose-dependent changes in dams. The findings for adiposity, milk composition and lipid profile were more pronounced in TBT100 ng dam; however, thyroid morphology was altered in TBT1000 ng dam. Female offspring were differentially affected by the dose of exposure. At birth, females in the TBT100ng group had low body weight, lower naso-anal length (NAL), and higher plasma T4, and at weaning, females in the TBT100ng group had lower insulin and leptin levels. Females in the TBT1000ng group had lower NAL at birth and lower leptinemia and weight of white adipose tissue at weaning. Male offspring from TBT groups showed high T3 at birth, without biometric alterations at birth or weaning. Despite these findings, both sexes exhibited dose-dependent morphological changes in the thyroid gland. Thus, maternal exposure to TBT constitutes an important route of contamination for both dams and offspring.

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母体暴露于三丁基锡会改变母体的母乳、荷尔蒙特征和甲状腺形态，并诱导新生大鼠后代发生性别特异性变化

三丁基锡（TBT）是世界上常用于防止船舶生物污损的化学物质。由于三丁基锡化合物具有生物累积和生物放大的能力，即使已被禁用，在沉积物中仍可检测到相当高浓度的三丁基锡化合物，对海洋和人类生活造成影响。尽管研究表明，直接接触三丁基锡化合物会改变哺乳动物的生理参数，但在孕期和哺乳期接触三丁基锡化合物（被认为是新陈代谢程序的关键窗口期）之间的关系尚未完全阐明。我们的假设是，母亲在发育的关键阶段接触过三丁基锡化合物的后代可能会表现出内分泌代谢参数的功能障碍。我们使用怀孕的 Wistar 大鼠，将其分成若干组，从妊娠第 7 天起至哺乳期结束，通过胃内灌胃法接受以下处理：载体（乙醇 0.01%；对照组）、低剂量 TBT（100 纳克/千克体重/天；TBT100ng）和高剂量 TBT（1000 纳克/千克体重/天；TBT1000ng）。对出生和断奶（21 天大）时的母体和后代进行了研究。母体暴露于三丁基锡化合物会促进母体发生剂量依赖性变化。TBT100 纳克母鼠的脂肪含量、乳汁成分和脂质概况的变化更为明显；然而，TBT1000 纳克母鼠的甲状腺形态发生了改变。雌性后代受到暴露剂量的不同影响。出生时，TBT100ng 组的雌性体重较轻、鼻肛长度（NAL）较低、血浆 T4 较高；断奶时，TBT100ng 组的雌性胰岛素和瘦素水平较低。TBT1000ng组的雌性在出生时NAL较低，断奶时瘦素血症和白色脂肪组织重量较低。三丁基锡化合物组的雄性后代在出生时显示出较高的 T3，但在出生或断奶时未出现生物特征的改变。尽管有这些发现，但雌雄动物的甲状腺都表现出剂量依赖性的形态变化。因此，母体接触三丁基锡化合物是母体和后代受到污染的一个重要途径。

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来源期刊

Environmental Pollution 环境科学-环境科学

CiteScore

16.00

自引率

6.70%

发文量

2082

审稿时长

2.9 months

期刊介绍： Environmental Pollution is an international peer-reviewed journal that publishes high-quality research papers and review articles covering all aspects of environmental pollution and its impacts on ecosystems and human health. Subject areas include, but are not limited to: • Sources and occurrences of pollutants that are clearly defined and measured in environmental compartments, food and food-related items, and human bodies; • Interlinks between contaminant exposure and biological, ecological, and human health effects, including those of climate change; • Contaminants of emerging concerns (including but not limited to antibiotic resistant microorganisms or genes, microplastics/nanoplastics, electronic wastes, light, and noise) and/or their biological, ecological, or human health effects; • Laboratory and field studies on the remediation/mitigation of environmental pollution via new techniques and with clear links to biological, ecological, or human health effects; • Modeling of pollution processes, patterns, or trends that is of clear environmental and/or human health interest; • New techniques that measure and examine environmental occurrences, transport, behavior, and effects of pollutants within the environment or the laboratory, provided that they can be clearly used to address problems within regional or global environmental compartments.