Baseline Toxicity and Volatility Cutoff in Reporter Gene Assays Used for High-Throughput Screening

Escher, Beate I.; Glauch, Lisa; König, Maria; Mayer, Philipp; Schlichting, Rita

doi:10.1021/acs.chemrestox.9b00182

Cited by 65 publications

(143 citation statements)

References 52 publications

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“…Lipophilic chemicals that have high sorption affinities to phospholipid membranes trigger baseline toxicity at lower dosed concentrations than hydrophilic chemicals, but the cytotoxic concentrations in the cell membranes do not differ much between different chemicals causing baseline toxicity (van Wezel and Opperhuizen 1995). We confirmed for eight reporter gene cell lines that chemicals triggered baseline toxicity when reaching a critical membrane concentration of approximately 70 mmol × L −1 lip (Escher et al 2019). We developed quantitative structure-activity relationships (QSARs) for these cell lines to predict the 10% inhibitory concentrations (IC 10 ) based on one chemical parameter, the liposome-water partition constant (K lip=w ) (Escher et al 2019).…”

Section: Introductionmentioning

confidence: 90%

“…We confirmed for eight reporter gene cell lines that chemicals triggered baseline toxicity when reaching a critical membrane concentration of approximately 70 mmol × L −1 lip (Escher et al 2019). We developed quantitative structure-activity relationships (QSARs) for these cell lines to predict the 10% inhibitory concentrations (IC 10 ) based on one chemical parameter, the liposome-water partition constant (K lip=w ) (Escher et al 2019). Known baseline toxicants (Vaes et al 1998) were used to derive the QSARs.…”

Section: Introductionmentioning

confidence: 95%

“…In our experience the typically used cell viability assays using fluorometric methods to detect metabolic activity or loss of cell membrane integrity are prone to artifacts and, as observed by Hsieh et al (2017), produce inconsistent results. We are therefore routinely screening cytotoxicity during reporter gene assays measurements by assessing confluence with a cell imager directly after dosing and prior to activity measurement of the reporter protein (Escher et al 2019). Although, for most chemicals, this imaging method provided effect concentrations similar to those of the fluorometric cell viability assay, artifacts of apparent high metabolic activity while cells have already disappeared under the microscope can be avoided.…”

Section: Introductionmentioning

confidence: 99%

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Cytotoxicity Burst? Differentiating Specific from Nonspecific Effects in Tox21 in Vitro Reporter Gene Assays

Escher

Henneberger

König

et al. 2020

Environ Health Perspect

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110

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BACKGROUND: High-throughput screening of chemicals with in vitro reporter gene assays in Tox21 has produced a large database on cytotoxicity and specific modes of action. However, the validity of some of the reported activities is questionable due to the "cytotoxicity burst," which refers to the supposition that many stress responses are activated in a nonspecific way at concentrations close to cell death. OBJECTIVES: We propose a pragmatic method to identify whether reporter gene activation is specific or cytotoxicity-triggered by comparing the measured effects with baseline toxicity. METHODS: Baseline toxicity, also termed narcosis, is the minimal toxicity any chemical causes. Quantitative structure-activity relationships (QSARs) developed for baseline toxicity in mammalian reporter gene cell lines served as anchors to define the chemical-specific threshold for the cytotoxicity burst and to evaluate the degree of specificity of the reporter gene activation. Measured 10% effect concentrations were related to measured or QSARpredicted 10% cytotoxicity concentrations yielding specificity ratios (SR). We applied this approach to our own experimental data and to ∼ 8,000 chemicals that were tested in six of the high-throughput Tox21 reporter gene assays. RESULTS: Confirmed baseline toxicants activated reporter gene activity around cytotoxic concentrations triggered by the cytotoxicity burst. In six Tox21 assays, 37%-87% of the active hits were presumably caused by the cytotoxicity burst (SR < 1) and only 2%-14% were specific with SR ≥ 10 against experimental cytotoxicity but 75%-97% were specific against baseline toxicity. This difference was caused by a large fraction of chemicals showing excess cytotoxicity. CONCLUSIONS: The specificity analysis for measured in vitro effects identified whether a cytotoxicity burst had likely occurred. The SR-analysis not only prevented false positives, but it may also serve as measure for relative effect potency and can be used for quantitative in vitro-in vivo extrapolation and risk assessment of chemicals.

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Section: Introductionmentioning

confidence: 90%

Section: Introductionmentioning

confidence: 95%

Section: Introductionmentioning

confidence: 99%

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Cytotoxicity Burst? Differentiating Specific from Nonspecific Effects in Tox21 in Vitro Reporter Gene Assays

Escher

Henneberger

König

et al. 2020

Environ Health Perspect

Self Cite

110

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show abstract

“…For volatile compounds, both dynamics and kinetics in vitro can be confounded if not properly accounted for. For example, high-throughput testing designs often make use of multi-well plates for the testing of multiple chemicals per plate that are typically not sealed, allowing volatile chemicals to not only escape a test well (therefore reducing effective concentration) but also to contaminate nearby wells [164][165][166]. However, given appropriate handling, in vitro data can be very useful for informing in vivo predictions: Quick and Shuler (1999) demonstrated a predictive toxicokinetic model for the volatile compound naphthalene that could be constructed using in vitro data on rate constants for metabolic kinetics [167].…”

Section: Computational In Vitro-to-in Vivo Extrapolation Modelingmentioning

confidence: 99%

“…To date, in vitro measures of toxicokinetics for volatile compounds have not been included in chemical risk prioritizations [163,169,170] because both bioactivity and kinetic data cannot be obtained using the same methods as previously implemented for the non-volatile and semi-volatile compounds that make up the majority of high-throughput screening libraries [164,171]. The development of a generic PBTK modeling framework that can concurrently handle higher throughput data on semi-and non-volatile chemicals with lower throughput data on volatile chemicals would enable comparison of chemical risk rankings across these diverse chemistries.…”

Section: Computational In Vitro-to-in Vivo Extrapolation Modelingmentioning

confidence: 99%

New Approach Methods to Evaluate Health Risks of Air Pollutants: Critical Design Considerations for In Vitro Exposure Testing

Zavala¹,

Freedman

Szilagyi

et al. 2020

IJERPH

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Air pollution consists of highly variable and complex mixtures recognized as major contributors to morbidity and mortality worldwide. The vast number of chemicals, coupled with limitations surrounding epidemiological and animal studies, has necessitated the development of new approach methods (NAMs) to evaluate air pollution toxicity. These alternative approaches include in vitro (cell-based) models, wherein toxicity of test atmospheres can be evaluated with increased efficiency compared to in vivo studies. In vitro exposure systems have recently been developed with the goal of evaluating air pollutant-induced toxicity; though the specific design parameters implemented in these NAMs-based studies remain in flux. This review aims to outline important design parameters to consider when using in vitro methods to evaluate air pollutant toxicity, with the goal of providing increased accuracy, reproducibility, and effectiveness when incorporating in vitro data into human health evaluations. This review is unique in that experimental considerations and lessons learned are provided, as gathered from first-hand experience developing and testing in vitro models coupled to exposure systems. Reviewed design aspects include cell models, cell exposure conditions, exposure chambers, and toxicity endpoints. Strategies are also discussed to incorporate in vitro findings into the context of in vivo toxicity and overall risk assessment.

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Andrographolide Derivatives Target the KEAP1/NRF2 Axis and Possess Potent Anti‐SARS‐CoV‐2 Activity

et al. 2022

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Naturally occurring compounds represent a vast pool of pharmacologically active entities. One of such compounds is andrographolide, which is endowed with many beneficial properties, including the activity against severe acute respiratory syndrome coronavirus type 2 (SARS-CoV-2). To initiate a drug repurposing or hit optimization campaign, it is imperative to unravel the primary mechanism(s) of the antiviral action of andrographolide. Here, we showed by means of a reporter gene assay that andrographolide exerts its anti-SARS-CoV-2 effects by inhibiting the interaction between Kelch-like ECHassociated protein 1 (KEAP1) and nuclear factor erythroid 2related factor 2 (NRF2) causing NRF2 upregulation. Moreover, we demonstrated that subtle structural modifications of andrographolide could lead to derivatives with stronger ontarget activities and improved physicochemical properties. Our results indicate that further optimization of this structural class is warranted to develop novel COVID-19 therapies.This article belongs to the Early-Career Special Collection, "EuroMedChem Talents".

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Baseline Toxicity and Volatility Cutoff in Reporter Gene Assays Used for High-Throughput Screening

Cited by 65 publications

References 52 publications

Cytotoxicity Burst? Differentiating Specific from Nonspecific Effects in Tox21 in Vitro Reporter Gene Assays

Cytotoxicity Burst? Differentiating Specific from Nonspecific Effects in Tox21 in Vitro Reporter Gene Assays

New Approach Methods to Evaluate Health Risks of Air Pollutants: Critical Design Considerations for In Vitro Exposure Testing

Andrographolide Derivatives Target the KEAP1/NRF2 Axis and Possess Potent Anti‐SARS‐CoV‐2 Activity

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