Bisphenol A exposure during gestation and lactation in mice: sex-specific consequences on oligodendrocytes and myelination.

IF 4.8 3区医学 Q1 PHARMACOLOGY & PHARMACY Toxicology Pub Date : 2024-12-30 DOI:10.1016/j.tox.2024.154041

Vanessa Naffaa, Juliette Van Steenwinckel, Romain Magny, Anne Regazzetti, Céline Keime, Pierre Gressens, Olivier Laprévote, Nicolas Auzeil, Anne-Laure Schang

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Abstract

Bisphenol A (BPA), a ubiquitous environmental endocrine disruptor, is suspected of disturbing brain development through largely unknown cellular and molecular mechanisms. In the central nervous system, oligodendrocytes are responsible for forming myelin sheaths, which enhance the propagation of action potentials along axons. Disruption of axon myelination can have lifelong consequences, making oligodendrocyte differentiation and myelination critical stages of brain development. In the present study, mice were exposed to BPA during gestation and lactation through drinking water at concentrations of 25 and 250μg.L^-1. These doses, corresponding to estimated exposures of 4μg.kg^-1.d^-1 and 40μg.kg^-1.d^-1, respectively, led to disturbances in lipid remodeling associated with myelination in the offspring. Importantly, changes in myelin lipid composition were selectively observed in female mice and were transient, being visible only at post-natal day P15 but not at later stages (P30 and P60). In females exposed to BPA, myelin exhibited a lower proportion of phosphatidylcholines and higher proportions of other glycerophospholipid subclasses, thus resembling more mature myelin. Conversely, male myelin was not affected, likely due to its already more mature lipid composition. Additionally, transcriptomic analysis of female oligodendrocytes at P15 did not reveal any transcriptional changes in genes related to lipid metabolism, further suggesting post-transcriptional effects of BPA via chaperone-mediated protein folding and RNA splicing. In males, the altered genes were mainly associated with synaptic transmission. Finally, alterations in chromatin accessibility were also largely sex dependent and did not correlate with transcription, with the exception of the Cwc22. At this locus, BPA exposure increased chromatin accessibility in half of mice of both sexes, leading to an "unchanged/open" bimodal profile correlated with "unchanged/upregulated" gene expression. Together, these results open new insights into the sex-dependent mechanisms of BPA's effects on brain development.

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小鼠妊娠和哺乳期双酚A暴露：对少突胶质细胞和髓鞘形成的性别特异性影响。

双酚A （BPA）是一种普遍存在的环境内分泌干扰物，被怀疑通过未知的细胞和分子机制干扰大脑发育。在中枢神经系统中，少突胶质细胞负责形成髓鞘，髓鞘能促进动作电位沿轴突的传播。轴突髓鞘形成的破坏可以产生终生的后果，使少突胶质细胞分化和髓鞘形成成为大脑发育的关键阶段。本研究采用25 μg. l -1和250μg.L-1双酚a浓度的饮用水，对妊娠期和哺乳期小鼠进行双酚a暴露。这些剂量相当于4μg.kg-1的估计暴露量。D-1和40μg.kg-1。D-1分别导致与后代髓鞘形成相关的脂质重塑紊乱。重要的是，在雌性小鼠中选择性地观察到髓磷脂脂质组成的变化，并且是短暂的，仅在出生后P15天可见，而在后期（P30和P60）则不可见。在暴露于BPA的雌性中，髓磷脂表现出较低比例的磷脂酰胆碱和较高比例的其他甘油磷脂亚类，因此类似于更成熟的髓磷脂。相反，男性髓磷脂不受影响，可能是由于其脂质成分已经更成熟。此外，对P15期雌性少突胶质细胞的转录组学分析未发现脂质代谢相关基因的转录变化，进一步表明BPA通过伴侣蛋白介导的蛋白质折叠和RNA剪接发挥转录后作用。在雄性中，改变的基因主要与突触传递有关。最后，除了Cwc22外，染色质可及性的改变也在很大程度上依赖于性别，与转录无关。在这个位点，BPA暴露增加了一半雌雄小鼠的染色质可及性，导致“不变/开放”双峰谱与“不变/上调”基因表达相关。总之，这些结果为双酚a对大脑发育影响的性别依赖机制提供了新的见解。

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

Toxicology 医学-毒理学

CiteScore

7.80

自引率

4.40%

发文量

222

审稿时长

23 days

期刊介绍： Toxicology is an international, peer-reviewed journal that publishes only the highest quality original scientific research and critical reviews describing hypothesis-based investigations into mechanisms of toxicity associated with exposures to xenobiotic chemicals, particularly as it relates to human health. In this respect "mechanisms" is defined on both the macro (e.g. physiological, biological, kinetic, species, sex, etc.) and molecular (genomic, transcriptomic, metabolic, etc.) scale. Emphasis is placed on findings that identify novel hazards and that can be extrapolated to exposures and mechanisms that are relevant to estimating human risk. Toxicology also publishes brief communications, personal commentaries and opinion articles, as well as concise expert reviews on contemporary topics. All research and review articles published in Toxicology are subject to rigorous peer review. Authors are asked to contact the Editor-in-Chief prior to submitting review articles or commentaries for consideration for publication in Toxicology.