Inhibitory Impact of Prenatal Exposure to Nano-Polystyrene Particles on the MAP2K6/p38 MAPK Axis Inducing Embryonic Developmental Abnormalities in Mice

Toxics Pub Date : 2024-05-17 DOI:10.3390/toxics12050370

Junyi Lv, Qing He, Zixiang Yan, Yuan Xie, Yao Wu, Anqi Li, Yuqing Zhang, Jing Li, Zhenyao Huang

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Abstract

Nanoplastics, created by the fragmentation of larger plastic debris, are a serious pollutant posing substantial environmental and health risks. Here, we developed a polystyrene nanoparticle (PS-NP) exposure model during mice pregnancy to explore their effects on embryonic development. We found that exposure to 30 nm PS-NPs during pregnancy resulted in reduced mice placental weight and abnormal embryonic development. Subsequently, our transcriptomic dissection unveiled differential expression in 102 genes under PS-NP exposure and the p38 MAPK pathway emerged as being significantly altered in KEGG pathway mapping. Our findings also included a reduction in the thickness of the trophoblastic layer in the placenta, diminished cell invasion capabilities, and an over-abundance of immature red cells in the blood vessels of the mice. In addition, we validated our findings through the human trophoblastic cell line, HTR-8/SVneo (HTR). PS-NPs induced a drop in the vitality and migration capacities of HTR cells and suppressed the p38 MAPK signaling pathway. This research highlights the embryotoxic effects of nanoplastics on mice, while the verification results from the HTR cells suggest that there could also be certain impacts on the human trophoblast layer, indicating a need for further exploration in this area.

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产前接触纳米聚苯乙烯颗粒对诱发小鼠胚胎发育异常的 MAP2K6/p38 MAPK 轴的抑制作用

纳米塑料是由较大的塑料碎片破碎后产生的，是一种严重的污染物，对环境和健康构成重大风险。在此，我们开发了一种小鼠妊娠期接触聚苯乙烯纳米粒子（PS-NP）的模型，以探讨其对胚胎发育的影响。我们发现，怀孕期间暴露于 30 纳米 PS-NPs 会导致小鼠胎盘重量减少和胚胎发育异常。随后，我们的转录组分析揭示了 102 个基因在 PS-NP 暴露下的表达差异，在 KEGG 通路图谱中，p38 MAPK 通路发生了显著改变。我们的发现还包括胎盘滋养层厚度减少、细胞侵袭能力减弱以及小鼠血管中未成熟红细胞过多。此外，我们还通过人类滋养细胞株 HTR-8/SVneo (HTR) 验证了我们的发现。PS-NPs 会降低 HTR 细胞的活力和迁移能力，并抑制 p38 MAPK 信号通路。这项研究强调了纳米塑料对小鼠胚胎的毒性影响，而 HTR 细胞的验证结果表明，它也可能对人类滋养层产生某些影响，这表明有必要在这一领域开展进一步的探索。

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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Toxics

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