发育阶段低剂量双酚A暴露会导致转录组女性男性化和男性女性化。

IF 5.4 Q1 MEDICINE, RESEARCH & EXPERIMENTAL

Communications medicine Pub Date : 2025-10-01 DOI:10.1038/s43856-025-01119-8

Thomas Lind, Linda Dunder, Margareta H Lejonklou, P Monica Lind, Håkan Melhus, Lars Lind

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引用次数: 0

摘要

背景：双酚A （BPA）是一种内分泌干扰物，在子宫内低剂量暴露与代谢性疾病的发生有关。先前的研究表明骨髓（BM）可能特别容易受到BPA的影响。方法：在这里，我们研究了发育暴露于低水平双酚a如何影响Fischer 344大鼠以后的BM转录组和血液代谢谱。我们使用基于人群的队列将这些效应与在人类代谢综合征（MetS）中观察到的效应进行比较。结果显示，BPA剂量比最近欧洲食品安全局（EFSA）临时规定的人类每日可耐受摄入量（TDI）低约8倍，并且在2015年被认为是安全的更高剂量，对BM转录组产生了出乎意料的广泛的性别偏倚效应。在一项横断面研究中，BPA暴露诱导基因表达的性别特异性变化，在女性中向低代谢癌症样状态发展，在男性中向高代谢自身免疫样状态发展，其血液代谢谱与人类MetS显著重叠。结论：我们得出的结论是，发育低剂量BPA暴露可能会诱发代谢综合征，特别是在男性中，可能是通过以性别特异性的方式影响T细胞活性。我们的研究为低剂量BPA暴露的显著影响提供了生物学上可信和令人信服的证据，支持欧洲食品安全局基于其对T细胞的关键影响而大幅降低人体BPA TDI。

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Developmental low-dose bisphenol A exposure leads to extensive transcriptome female masculinization and male feminization later in life.

Background: Bisphenol A (BPA) is an endocrine disruptor, and exposure to low doses in utero has been associated with the development of metabolic diseases. Previous studies have suggested that bone marrow (BM) may be particularly susceptible to BPA exposure.

Methods: Here, we investigate how developmental exposure to low levels of BPA affects the BM transcriptome and the blood metabolic profile in Fischer 344 rats later in life. We compare these effects to those observed in human metabolic syndrome (MetS) using a population-based cohort.

Results: The results show an unexpectedly extensive sex-biased effect on the BM transcriptome from a BPA dose approximately eight times lower than the recent temporary European Food Safety Authority (EFSA) human tolerable daily intake (TDI) and a higher dose considered safe in 2015. BPA exposure induces sex-specific changes in gene expression, progressing toward a hypometabolic cancer-like state in females and a hypermetabolic autoimmunity-like state in males, with a blood metabolic profile that significantly overlaps with human MetS in a cross-sectional study.

Conclusions: We conclude that developmental low-dose BPA exposure might induce metabolic syndrome specifically in males, possibly by affecting T cell activity in a sex-specific manner. Our study provides biologically plausible and convincing evidence for significant effects from low-dose BPA exposure, supporting the substantial lowering of the human BPA TDI by EFSA based on its critical effects on T cells.

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Communications medicine

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