The intracellular free concentration of endocrine disrupting chemicals enables translation between cell-free and cell-based estrogenic activity assays

IF 4.2 3区环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES

Environmental toxicology and pharmacology Pub Date : 2025-06-23 DOI:10.1016/j.etap.2025.104750

Vesna Munic Kos , Staffan Arvidsson , Barira Islam , Violetta Nikiforova , Evgeniya Mickols , Alina Meyer , Richard Svensson , Ummu Gulsum Boztepe , Eirini Banti , Patrik Lundquist , Hiba Khalidi , Iain Gardner , Ola Spjuth , Ian Cotgreave , Per Artursson

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引用次数: 0

Abstract

Many environmental toxicants can activate estrogen receptor α (ERα), disrupting normal endocrine function. While these activities are predicted across in silico, in vitro, and in vivo models, translating active concentrations between these systems remains challenging. We hypothesized that cellular uptake and the resulting free intracellular toxicant concentration could bridge this gap. Using cell-free (hER) and cell-based (ERα-CALUX cells) estrogen assays, we tested this hypothesis by determination of the free intracellular concentration available for binding to the intracellularly located ERα. Predictive modeling identified three classes of estrogenic chemicals from the ToxCast collection: bisphenols, parabens, and phthalates. Experimental data confirmed potency differences of up to 100-fold between the cell-free and cell-based models. Cellular toxicokinetic (TK) parameters, including cellular uptake and intracellular binding, were determined using computational and experimental methods. Incorporating experimental TK parameters significantly improved the correlation between ERα activities in the cell-free and cellular models (from r = 0.6230, P = 0.0989 without corrections to r = 0.8869, P = 0.0033 after corrections), and bridged the gap between the cell free and cell based assays. Both computational and experimental TK parameters varied widely across chemical classes and compounds. Correcting active concentrations for free intracellular levels enhanced assay correlations, with experimentally derived corrections showing the strongest improvement with r = 0.8869 (compared to the in silico derived corrections with r = 0.811). Our findings highlight the critical role of free intracellular concentration in determining the biological activity of estrogenic toxicants and emphasize its importance in accurately assessing their endocrine-disrupting potential.

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细胞内内分泌干扰化学物质的自由浓度可以在无细胞和基于细胞的雌激素活性测定之间进行转换。

许多环境毒物可激活雌激素受体α (ERα)，扰乱正常的内分泌功能。虽然这些活性可以通过计算机、体外和体内模型进行预测，但在这些系统之间转换活性浓度仍然具有挑战性。我们假设细胞摄取和由此产生的游离细胞内毒物浓度可以弥补这一差距。利用无细胞（hER）和基于细胞（ERα- calux细胞）的雌激素检测，我们通过测定可与细胞内ERα结合的游离细胞内浓度来验证这一假设。预测模型从ToxCast收集中确定了三类雌激素化学物质：双酚、对羟基苯甲酸酯和邻苯二甲酸酯。实验数据证实，无细胞和基于细胞的模型之间的效价差异高达100倍。细胞毒性动力学（TK）参数，包括细胞摄取和细胞内结合，采用计算和实验方法确定。结合实验TK参数显著提高了无细胞和细胞模型中ERα活性的相关性（从未经校正的r=0.6230， P=0.0989到校正后的r=0.8869， P=0.0033），弥补了无细胞和基于细胞的测定之间的差距。计算和实验的TK参数在化学类别和化合物之间变化很大。校正游离细胞内水平的活性浓度增强了分析相关性，实验推导的校正显示最强的改善，r=0.8869（与计算机推导的校正相比，r=0.811）。我们的研究结果强调了细胞内游离浓度在确定雌激素毒性物质的生物活性方面的关键作用，并强调了它在准确评估其内分泌干扰潜力方面的重要性。

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来源期刊

Environmental toxicology and pharmacology 医学-毒理学

CiteScore

7.00

自引率

4.70%

发文量

185

审稿时长

34 days

期刊介绍： Environmental Toxicology and Pharmacology publishes the results of studies concerning toxic and pharmacological effects of (human and veterinary) drugs and of environmental contaminants in animals and man. Areas of special interest are: molecular mechanisms of toxicity, biotransformation and toxicokinetics (including toxicokinetic modelling), molecular, biochemical and physiological mechanisms explaining differences in sensitivity between species and individuals, the characterisation of pathophysiological models and mechanisms involved in the development of effects and the identification of biological markers that can be used to study exposure and effects in man and animals. In addition to full length papers, short communications, full-length reviews and mini-reviews, Environmental Toxicology and Pharmacology will publish in depth assessments of special problem areas. The latter publications may exceed the length of a full length paper three to fourfold. A basic requirement is that the assessments are made under the auspices of international groups of leading experts in the fields concerned. The information examined may either consist of data that were already published, or of new data that were obtained within the framework of collaborative research programmes. Provision is also made for the acceptance of minireviews on (classes of) compounds, toxicities or mechanisms, debating recent advances in rapidly developing fields that fall within the scope of the journal.