利用体外 ERα-CALUX 试验预测和评估异雌激素混合物的影响

IF 3.6 Q2 TOXICOLOGY Frontiers in toxicology Pub Date : 2023-12-08 DOI:10.3389/ftox.2023.1252847
M. Elskens, I. Boonen, Steven Eisenreich
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引用次数: 0

摘要

食品、膳食补充剂和食品接触材料(fcm)中使用的许多天然或合成化合物都被怀疑是内分泌干扰物(EDs)。目前,预测ED混合物对生物系统影响的科学证据缺乏。本研究考虑了三类物质:i)植物雌激素,ii)植物保护产品(PPP)和iii)与fcm相关的物质。根据其潜在的内分泌活性及其在食品和fcm中的存在选择了14种化合物。方法:使用体外基因表达试验,ERα-CALUX来评估这些化合物对雌激素受体α的反应。细胞暴露于完全和部分激动剂的固定比例混合物和非等效混合物中。测定的浓度-反应曲线在最大反应(药效)、灵敏度(斜率)和效价(中位有效浓度EC50)方面具有可变的几何参数。为了解释这些变化,从质量作用动力学中导出了一个通用响应加法(GRA)模型。结果:虽然GRA不允许我们清楚地分离浓度添加(CA)和独立作用(IA)模型,但有可能以统计稳健的方式确定混合物中化学物质的联合作用是通过相互作用(协同作用和拮抗作用)还是通过添加行为起作用。这种区别对于评估与接触异种雌激素有关的风险至关重要。基准剂量方法用于比较植物雌激素混合物在存在和不存在激素雌二醇(E2)的情况下的反应。同时,测试了12种2-5种成分的混合物,其中包括植物雌激素、邻苯二甲酸盐和ppp,其比例接近于食品中的含量。在95%的病例中,观察到的反应模式显示了化学物质对ER的联合和独立影响。讨论:总的来说,这些结果验证了基于由内在毒性因素调节的加性效应模型的风险评估方法。在这里,不能仅仅根据浓度响应曲线的形状来区分CA和IA方法。然而,当单个化学激动剂的功效、效力和敏感性存在较大差异时,优化后的GRA模型比CA模型更稳健。
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Prediction and assessment of xenoestrogens mixture effects using the in vitro ERα-CALUX assay
Introduction: Many natural or synthetic compounds used in foods, dietary supplements, and food contact materials (FCMs) are suspected endocrine disruptors (EDs). Currently, scientific evidence to predict the impacts on biological systems of ED mixtures is lacking. In this study, three classes of substances were considered: i) phytoestrogens, ii) plant protection products (PPP) and iii) substances related to FCMs. Fourteen compounds were selected based on their potential endocrine activity and their presence in food and FCMs.Methods: These compounds were evaluated using an in vitro gene expression assay, the ERα-CALUX, to characterize their responses on the estrogen receptor alpha. Cells were exposed to fixed ratio mixtures and non-equipotent mixtures of full and partial agonists. The concentration-response curves measured for the three classes of compounds were characterized by variable geometric parameters in terms of maximum response (efficacy), sensitivity (slope) and potency (median effective concentration EC50). To account for these variations, a generic response addition (GRA) model was derived from mass action kinetics.Results: Although GRA does not allow us to clearly separate the concentration addition (CA) and independent action (IA) models, it was possible to determine in a statistically robust way whether the combined action of the chemicals in the mixture acted by interaction (synergy and antagonism) or by additive behavior. This distinction is crucial for assessing the risks associated with exposure to xenoestrogens. A benchmark dose approach was used to compare the response of phytoestrogen blends in the presence and absence of the hormone estradiol (E2). At the same time, 12 mixtures of 2–5 constituents including phytoestrogens, phthalates and PPPs in proportions close to those found in food products were tested. In 95% of cases, the response pattern observed showed a joint and independent effect of the chemicals on ER.Discussion: Overall, these results validate a risk assessment approach based on an additive effects model modulated by intrinsic toxicity factors. Here, the CA and IA approaches cannot be distinguished solely based on the shape of the concentration response curves. However, the optimized GRA model is more robust than CA when the efficacy, potency, and sensitivity of individual chemical agonists show large variations.
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