在雌激素受体结合和激动剂/拮抗剂试验中避免假阳性和优化真阴性鉴定。

Q2 Health Professions Applied In Vitro Toxicology Pub Date : 2017-06-01 DOI:10.1089/aivt.2016.0021
Michael W Hornung, Mark A Tapper, Jeffrey S Denny, Barbara R Sheedy, Raymond Erickson, Taylor J Sulerud, Richard C Kolanczyk, Patricia K Schmieder
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引用次数: 9

摘要

化学物质影响内分泌信号的可能性通常通过体外受体结合和基因激活来评估,但这些分析,尤其是拮抗分析,有潜在的伪影,必须加以解决才能准确解释。在竞争性虹鳟鱼雌激素受体(rtER)结合试验和虹鳟鱼肝切片卵黄原蛋白mRNA表达试验中,从54个化学基团中筛选94种化学物质激活雌激素受体(ER)。真正的竞争性激动剂和拮抗剂,以及很少或没有内质网结合或基因激活迹象的非活性化学物质的结果很容易解释。然而,许多工业化学品的结果更具挑战性,包括具有:(1)明显的竞争性结合曲线,但没有基因激活;(2)明显的结合和基因抑制,有细胞毒性或测定介质pH变化的证据;(3)明显的结合,但原因不明的非竞争性基因抑制;(4)没有rtER结合和基因抑制,不是由于竞争性内质网相互作用,而是由于毒性、pH变化或某些未知原因。使用端点,如毒性,pH值,沉淀形成,和抑制剂解离常数(Ki)的测定来解释不同化学物质的拮抗和结合试验的结果。在94种化学物质中,只有两种,他莫昔芬和ICI-182780,被发现是真正的竞争性拮抗剂。本报告强调使用两种不同浓度的雌二醇与分级浓度的测试化学物质相结合进行测试,以提供确证证据来区分真正的竞争性拮抗作用和表面拮抗作用。
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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Avoiding False Positives and Optimizing Identification of True Negatives in Estrogen Receptor Binding and Agonist/Antagonist Assays.

The potential for chemicals to affect endocrine signaling is commonly evaluated via in vitro receptor binding and gene activation, but these assays, especially antagonism assays, have potential artifacts that must be addressed for accurate interpretation. Results are presented from screening 94 chemicals from 54 chemical groups for estrogen receptor (ER) activation in a competitive rainbow trout ER (rtER) binding assay and a trout liver slice vitellogenin mRNA expression assay. Results from true competitive agonists and antagonists, and inactive chemicals with little or no indication of ER binding or gene activation were easily interpreted. However, results for numerous industrial chemicals were more challenging to interpret, including chemicals with: (1) apparent competitive binding curves but no gene activation, (2) apparent binding and gene inhibition with evidence of either cytotoxicity or changes in assay media pH, (3) apparent binding but non-competitive gene inhibition of unknown cause, or (4) no rtER binding and gene inhibition not due to competitive ER interaction but due to toxicity, pH change, or some unknown cause. The use of endpoints such as toxicity, pH, precipitate formation, and determination of inhibitor dissociation constants (Ki) for interpreting the results of antagonism and binding assays for diverse chemicals is presented. Of the 94 chemicals tested for antagonism only two, tamoxifen and ICI-182780, were found to be true competitive antagonists. This report highlights the use of two different concentrations of estradiol tested in combination with graded concentrations of test chemical to provide the confirmatory evidence to distinguish true competitive antagonism from apparent antagonism.

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来源期刊
Applied In Vitro Toxicology
Applied In Vitro Toxicology Health Professions-Medical Laboratory Technology
CiteScore
2.70
自引率
0.00%
发文量
13
期刊介绍: Applied In Vitro Toxicology is a peer-reviewed journal providing the latest research on the application of alternative in vitro testing methods for predicting adverse effects in the pharmaceutical, chemical, and personal care industries. This Journal aims to address important issues facing the various chemical industries, including regulatory requirements; the reduction, refinement, and replacement of animal testing; new screening methods; evaluation of new cell and tissue models; and the most appropriate methods for assessing safety and satisfying regulatory demands. The Journal also delivers the latest views and opinions of developers of new models, end users of the models, academic laboratories that are inventing new tools, and regulatory agencies in the United States, Europe, Latin America, Australia and Asia. Applied In Vitro Toxicology is the journal that scientists involved with hazard identification and risk assessment will read to understand how new and existing in vitro methods are applied, and the questions for which these models provide answers. Applied In Vitro Toxicology coverage includes: -Applied in vitro toxicology industry standards -New technologies developed for applied in vitro toxicology -Data acquisition, cleaning, distribution, and best practices -Data protection, privacy, and policy -Business interests from research to product -The changing role of in vitro toxicology -Visualization and design principles of applied in vitro toxicology infrastructures -Physical interfaces and robotics -Opportunities around applied in vitro toxicology
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