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8. The round-robin approach applied to nanoinformatics: consensus prediction of nanomaterials zeta potential

Author

Dimitra-Danai Varsou, Arkaprava Banerjee, Joyita Roy, Kunal Roy, Giannis Savvas, Haralambos Sarimveis, Ewelina Wyrzykowska, Mateusz Balicki, Tomasz Puzyn, Georgia Melagraki, Iseult Lynch, and Antreas Afantitis

Subjects
consensus modelling, read-across, qspr, round-robin test, zeta potential, Technology, Chemical technology, TP1-1185, Science, Physics, QC1-999
Abstract

A key step in building regulatory acceptance of alternative or non-animal test methods has long been the use of interlaboratory comparisons or round-robins (RRs), in which a common test material and standard operating procedure is provided to all participants, who measure the specific endpoint and return their data for statistical comparison to demonstrate the reproducibility of the method. While there is currently no standard approach for the comparison of modelling approaches, consensus modelling is emerging as a “modelling equivalent” of a RR. We demonstrate here a novel approach to evaluate the performance of different models for the same endpoint (nanomaterials’ zeta potential) trained using a common dataset, through generation of a consensus model, leading to increased confidence in the model predictions and underlying models. Using a publicly available dataset, four research groups (NovaMechanics Ltd. (NovaM)-Cyprus, National Technical University of Athens (NTUA)-Greece, QSAR Lab Ltd.-Poland, and DTC Lab-India) built five distinct machine learning (ML) models for the in silico prediction of the zeta potential of metal and metal oxide-nanomaterials (NMs) in aqueous media. The individual models were integrated into a consensus modelling scheme, enhancing their predictive accuracy and reducing their biases. The consensus models outperform the individual models, resulting in more reliable predictions. We propose this approach as a valuable method for increasing the validity of nanoinformatics models and driving regulatory acceptance of in silico new approach methodologies for the use within an “Integrated Approach to Testing and Assessment” (IATA) for risk assessment of NMs.

Published
2024
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9. Workflow for predictive risk assessments of UVCBs: cheminformatics library design, QSAR, and read-across approaches applied to complex mixtures of metal naphthenates.

Author

Prussia, A. J., Welsh, C., Somers, T. S., and Ruiz, P.

Subjects
NAPHTHENIC acids, QSAR models, LIBRARY design & construction, COPPER, METALWORK
Abstract

Substances of unknown or variable composition, complex reaction products, and biological materials (UVCBs) are commonly found in the environment. However, assessing their human toxicological risk is challenging due to their variable composition and many constituents. Metal naphthenate salts are one such category of UVCBs that are the reaction products of naphthenic acids with metals to form complex mixtures. Metal naphthenates are often found or used in household and industrial materials with potential for human exposure, but very few of these materials have been evaluated for causing human health hazards. Herein, we evaluate metal naphthenates using predictions derived from read-across and quantitative structure-activity/property relationship (QSAR/QSPR) models. Accordingly, we first built a computational chemistry library by enumerating the structures of naphthenic acids and derived 11,850 QSAR-acceptable structures; then, we used open and commercial in silico tools on these structures to predict a set of physicochemical properties and toxicity endpoints. We then compared the QSAR/QSPR predictions with available experimental data on naphthenic acids to provide a more complete picture of the contributions of the components to the toxicity profiles of metal naphthenate mixtures. The available systematic acute oral toxicity values (LD50) and QSAR LD50 predictions of all the naphthenic acid components indicated low concern for toxicity. The point of departure predictions for chronic repeated dose toxicity for the naphthenic acid components using QSAR models developed from studies on rats ranged from 25 to 50 mg/kg/day. These values are in good agreement with findings fromstudies on copper and zinc naphthenates, which had no observed adverse effect levels of 30 and 118 mg/kg/day, respectively. Hence, this study demonstrates how published in silico approaches can be used to identify the potential components of metal naphthenates for further testing, inform groupings of UVCBs such as naphthenates, as well as fill the data gaps using read-across and QSAR models to inform risk assessment. [ABSTRACT FROM AUTHOR]

Published
2024
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10. Molecular similarity in chemical informatics and predictive toxicity modeling: from quantitative read-across (q-RA) to quantitative read-across structure–activity relationship (q-RASAR) with the application of machine learning.

Author

Banerjee, Arkaprava, Kar, Supratik, Roy, Kunal, Patlewicz, Grace, Charest, Nathaniel, Benfenati, Emilio, and Cronin, Mark T. D.

Subjects
*CHEMINFORMATICS, *SCIENTIFIC community, *MACHINE learning, *PREDICTION models, *TOXICOLOGY
Abstract

This article aims to provide a comprehensive critical, yet readable, review of general interest to the chemistry community on molecular similarity as applied to chemical informatics and predictive modeling with a special focus on read-across (RA) and read-across structure–activity relationships (RASAR). Molecular similarity-based computational tools, such as quantitative structure–activity relationships (QSARs) and RA, are routinely used to fill the data gaps for a wide range of properties including toxicity endpoints for regulatory purposes. This review will explore the background of RA starting from how structural information has been used through to how other similarity contexts such as physicochemical, absorption, distribution, metabolism, and elimination (ADME) properties, and biological aspects are being characterized. More recent developments of RA's integration with QSAR have resulted in the emergence of novel models such as ToxRead, generalized read-across (GenRA), and quantitative RASAR (q-RASAR). Conventional QSAR techniques have been excluded from this review except where necessary for context. [ABSTRACT FROM AUTHOR]

Published
2024
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13. The rat acute oral toxicity of trifluoromethyl compounds (TFMs): a computational toxicology study combining the 2D-QSTR, read-across and consensus modeling methods.

Author

Lu, Xinyi, Wang, Xin, Chen, Shuo, Fan, Tengjiao, Zhao, Lijiao, Zhong, Rugang, and Sun, Guohui

Subjects
*TRIFLUOROMETHYL compounds, *LABORATORY rats, *DRUG development, *COMPUTATIONAL neuroscience, *ANALYTICAL chemistry, *TOXICOLOGY, *AGRICULTURAL chemicals
Abstract

All areas of the modern society are affected by fluorine chemistry. In particular, fluorine plays an important role in medical, pharmaceutical and agrochemical sciences. Amongst various fluoro-organic compounds, trifluoromethyl (CF3) group is valuable in applications such as pharmaceuticals, agrochemicals and industrial chemicals. In the present study, following the strict OECD modelling principles, a quantitative structure–toxicity relationship (QSTR) modelling for the rat acute oral toxicity of trifluoromethyl compounds (TFMs) was established by genetic algorithm-multiple linear regression (GA-MLR) approach. All developed models were evaluated by various state-of-the-art validation metrics and the OECD principles. The best QSTR model included nine easily interpretable 2D molecular descriptors with clear physical and chemical significance. The mechanistic interpretation showed that the atom-type electro-topological state indices, molecular connectivity, ionization potential, lipophilicity and some autocorrelation coefficients are the main factors contributing to the acute oral toxicity of TFMs against rats. To validate that the selected 2D descriptors can effectively characterize the toxicity, we performed the chemical read-across analysis. We also compared the best QSTR model with public OPERA tool to demonstrate the reliability of the predictions. To further improve the prediction range of the QSTR model, we performed the consensus modelling. Finally, the optimum QSTR model was utilized to predict a true external set containing many untested/unknown TFMs for the first time. Overall, the developed model contributes to a more comprehensive safety assessment approach for novel CF3-containing pharmaceuticals or chemicals, reducing unnecessary chemical synthesis whilst saving the development cost of new drugs. [ABSTRACT FROM AUTHOR]

Published
2024
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14. Use of in vitro ADME methods to identify suitable analogs of homosalate and octisalate for use in a read‐across safety assessment.

Author

Grégoire, Sébastien, Moustié, Anne, Lereaux, Guillaume, Roussel‐Berlier, Laurène, and Hewitt, Nicky

Subjects
SALICYLATES, SALICYLIC acid, CHEMICAL properties, PLASMA stability, CELL permeability, BIOCHEMICAL substrates
Abstract

Case studies are needed to demonstrate the use of human‐relevant New Approach Methodologies in cosmetics ingredient safety assessments. For read‐across assessments, it is crucial to compare the target chemical with the most appropriate analog; therefore, reliable analog selection should consider physicochemical properties, bioavailability, metabolism, as well as the bioactivity of potential analogs. To complement in vitro bioactivity assays, we evaluated the suitability of three potential analogs for the UV filters, homosalate and octisalate, according to their in vitro ADME properties. We describe how technical aspects of conducting assays for these highly lipophilic chemicals were addressed and interpreted. There were several properties that were common to all five chemicals: they all had similar stability in gastrointestinal fluids (in which no hydrolysis to salicylic occurred); were not substrates of the P‐glycoprotein efflux transporter; were highly protein bound; and were hydrolyzed to salicylic acid (which was also a major metabolite). The main properties differentiating the chemicals were their permeability in Caco‐2 cells, plasma stability, clearance in hepatic models, and the extent of hydrolysis to salicylic acid. Cyclohexyl salicylate, octisalate, and homosalate were identified suitable analogs for each other, whereas butyloctyl salicylate exhibited ADME properties that were markedly different, indicating it is unsuitable. Isoamyl salicylate can be a suitable analog with interpretation for octisalate. In conclusion, in vitro ADME properties of five chemicals were measured and used to pair target and potential analogs. This study demonstrates the importance of robust ADME data for the selection of analogs in a read‐across safety assessment. We evaluated the suitability of three potential analogues homosalate and octisalate (UV filters), according to their in vitro ADME properties. Technical aspects of testing these highly lipophilic chemicals were addressed. Main differentiating properties were plasma stability, hepatic clearance, and hydrolysis to salicylic acid. Cyclohexyl salicylate, octisalate, and homosalate were identified suitable analogues for each other, whereas butyloctyl salicylate exhibited ADME properties that were markedly different, as a unsuitable analogue. Isoamyl salicylate can be a suitable analogue with interpretation for octisalate. [ABSTRACT FROM AUTHOR]

Published
2024
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15. Next-generation risk assessment read-across case study: application of a 10-step framework to derive a safe concentration of daidzein in a body lotion.

Author

Najjar, Abdulkarim, Kühnl, Jochen, Lange, Daniela, Géniès, Camille, Jacques, Carine, Fabian, Eric, Zifle, Anne, Hewitt, Nicola J., and Schepky, Andreas

Subjects
PHYTOESTROGENS, OINTMENTS, FACIAL creams (Cosmetics), DAIDZEIN, RISK assessment, SAFETY factor in engineering
Abstract

Introduction: We performed an exposure-based Next Generation Risk Assessment case read-across study using New Approach Methodologies (NAMs) to determine the highest safe concentration of daidzein in a body lotion, based on its similarities with its structural analogue, genistein. Two assumptions were: (1) daidzein is a new chemical and its dietary intake omitted; (2) only in vitro data were used for daidzein, while in vitro and legacy in vivo data for genistein were considered. Methods: The 10-step tiered approach evaluating systemic toxicity included toxicokinetics NAMs: PBPK models and in vitro biokinetics measurements in cells used for toxicogenomics and toxicodynamic NAMs: pharmacology profiling (i.e., interaction with molecular targets), toxicogenomics and EATS assays (endocrine disruption endpoints). Whole body rat and human PBPK models were used to convert external doses of genistein to plasma concentrations and in vitro Points of Departure (PoD) to external doses. The PBPK human dermal module was refined using in vitro human skin metabolism and penetration data. Results: The most relevant endpoint for daidzein was from the ERa assay (Lowest Observed Effective Concentration was 100 ± 0.0 nM), which was converted to an in vitro PoD of 33 nM. After application of a safety factor of 3.3 for intra-individual variability, the safe concentration of daidzein was estimated to be 10 nM. This was extrapolated to an external dose of 0.5 µg/cm2 for a body lotion and face cream, equating to a concentration of 0.1%. Discussion: When in vitro PoD of 33 nM for daidzein was converted to an external oral dose in rats, the value correlated with the in vivo NOAEL. This increased confidence that the rat oral PBPK model provided accurate estimates of internal and external exposure and that the in vitro PoD was relevant in the safety assessment of both chemicals. When plasma concentrations estimated from applications of 0.1% and 0.02% daidzein were used to calculate bioactivity exposure ratios, values were >1, indicating a good margin between exposure and concentrations causing adverse effects. In conclusion, this case study highlights the use of NAMs in a 10-step tiered workflow to conclude that the highest safe concentration of daidzein in a body lotion is 0.1%. [ABSTRACT FROM AUTHOR]

Published
2024
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19. Workflow for predictive risk assessments of UVCBs: cheminformatics library design, QSAR, and read-across approaches applied to complex mixtures of metal naphthenates

Author

A. J. Prussia, C. Welsh, T. S. Somers, and P. Ruiz

Subjects
unknown or variable composition complex reaction products and biological materials (UVCBs), metal naphthenates, quantitative structure–activity relationships, quantitative structure–property relationships, read-across, virtual chemical library, Toxicology. Poisons, RA1190-1270
Abstract

Substances of unknown or variable composition, complex reaction products, and biological materials (UVCBs) are commonly found in the environment. However, assessing their human toxicological risk is challenging due to their variable composition and many constituents. Metal naphthenate salts are one such category of UVCBs that are the reaction products of naphthenic acids with metals to form complex mixtures. Metal naphthenates are often found or used in household and industrial materials with potential for human exposure, but very few of these materials have been evaluated for causing human health hazards. Herein, we evaluate metal naphthenates using predictions derived from read-across and quantitative structure–activity/property relationship (QSAR/QSPR) models. Accordingly, we first built a computational chemistry library by enumerating the structures of naphthenic acids and derived 11,850 QSAR-acceptable structures; then, we used open and commercial in silico tools on these structures to predict a set of physicochemical properties and toxicity endpoints. We then compared the QSAR/QSPR predictions with available experimental data on naphthenic acids to provide a more complete picture of the contributions of the components to the toxicity profiles of metal naphthenate mixtures. The available systematic acute oral toxicity values (LD50) and QSAR LD50 predictions of all the naphthenic acid components indicated low concern for toxicity. The point of departure predictions for chronic repeated dose toxicity for the naphthenic acid components using QSAR models developed from studies on rats ranged from 25 to 50 mg/kg/day. These values are in good agreement with findings from studies on copper and zinc naphthenates, which had no observed adverse effect levels of 30 and 118 mg/kg/day, respectively. Hence, this study demonstrates how published in silico approaches can be used to identify the potential components of metal naphthenates for further testing, inform groupings of UVCBs such as naphthenates, as well as fill the data gaps using read-across and QSAR models to inform risk assessment.

Published
2024
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20. Developing a modern approach to assess ecological risk from pesticides without unnecessary vertebrate animal testing.

Author

Dreier, David A., Picard, Christian, Kabler, Kent, Ryan, Natalia, Lu, Haitian, Alexander-Watkins, Odette, Abbott, John, Currie, Richard A., Wolf, Douglas C., and Ramanarayanan, Tharacad

Subjects
ANIMAL experimentation, ECOLOGICAL risk assessment, HERBICIDE resistance, PESTICIDES, ENVIRONMENTAL protection, ENVIRONMENTAL chemistry, ENVIRONMENTAL toxicology
Abstract

Environmental context: Pesticides are critical to agriculture and food production but require ecological risk assessments. Although most risk assessments require data from vertebrate animal testing, we have developed an approach to assess risk to fish, birds and mammals using other means. This approach could help to ensure protection of the environment while minimising animal testing. Rationale: Recent directives to reduce animal testing have implications for ecological risk assessment, as several vertebrate tests are used to support these assessments. Therefore, a modern approach was devised to address these key knowledge needs without the use of chemical-specific vertebrate testing. Methodology: An ecological risk assessment for a novel acetyl-coenzyme A carboxylase (ACCase) inhibitor herbicide was conducted using alternative lines of evidence. For fish, chemical toxicity distributions were constructed to quantify the probability of effects, and these distributions were compared with exposure estimates for a representative use in soybeans. The effect distributions were further refined based on invertebrate toxicity and partitioning behaviour. For birds and mammals, a joint probability curve was constructed by integrating chemical toxicity distributions and Kenaga exposure distributions. Results: The lines of evidence presented in this predictive risk assessment suggest the intended use of a new ACCase inhibitor is unlikely to affect fish, birds, or mammals. Exposure was unlikely to exceed effect estimates, regardless of whether they were derived based on chemical-read across, invertebrate toxicity, or partitioning behaviour. Discussion: Key knowledge needs for ecological risk assessment can be informed by lines of evidence that do not require animal testing. The present study demonstrates such an approach by comparing predicted exposure and effects, which are expected to be protective. This predictive approach can be extended to other active ingredients and chemical classes, as well as other taxonomic groups of interest. Future research should aim to integrate new approach methods in a predictive risk assessment framework. Environmental context. Pesticides are critical to agriculture and food production but require ecological risk assessments. Although most risk assessments require data from vertebrate animal testing, we have developed an approach to assess risk to fish, birds and mammals using other means. This approach could help to ensure protection of the environment while minimising animal testing. This article belongs to the collection NAMs in Environmental Chemistry and Toxicology. [ABSTRACT FROM AUTHOR]

Published
2024
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21. Application of machine learning‐based read‐across structure‐property relationship (RASPR) as a new tool for predictive modelling: Prediction of power conversion efficiency (PCE) for selected classes of organic dyes in dye‐sensitized solar cells (DSSCs)

Author

Pore, Souvik, Banerjee, Arkaprava, and Roy, Kunal

Subjects
DYE-sensitized solar cells, ORGANIC dyes, PREDICTION models, FEATURE selection, STRUCTURAL models, MULTISENSOR data fusion
Abstract

The application of various in‐silico‐based approaches for the prediction of various properties of materials has been an effective alternative to experimental methods. Recently, the concepts of Quantitative structure‐property relationship (QSPR) and read‐across (RA) methods were merged to develop a new emerging chemoinformatic tool: read‐across structure‐property relationship (RASPR). The RASPR method can be applicable to both large and small datasets as it uses various similarity and error‐based measures. It has also been observed that RASPR models tend to have an increased external predictivity compared to the corresponding QSPR models. In this study, we have modeled the power conversion efficiency (PCE) of organic dyes used in dye‐sensitized solar cells (DSSCs) by using the quantitative RASPR (q‐RASPR) method. We have used relatively larger classes of organic dyes–Phenothiazines (n=207), Porphyrins (n=281), and Triphenylamines (n=229) for the modelling purpose. We have divided each of the datasets into training and test sets in 3 different combinations, and with the training sets we have developed three different QSPR models with structural and physicochemical descriptors and validated them with the corresponding test sets. These corresponding modeled descriptors were used to calculate the RASPR descriptors using a Java‐based tool RASAR Descriptor Calculator v2.0 (https://sites.google.com/jadavpuruniversity.in/dtc‐lab‐software/home), and then data fusion was performed by pooling the previously selected structural and physicochemical descriptors with the calculated RASPR descriptors. Further feature selection algorithm was employed to develop the final RASPR PLS models. Here, we also developed different machine learning (ML) models with the descriptors selected in the QSPR PLS and RASPR PLS models, and it was found that models with RASPR descriptors superseded in external predictivity the models with only structural and physicochemical descriptors: RMSEP reduced for phenothiazines from 1.16–1.25 to 1.07–1.18, for porphyrins from 1.60–1.79 to 1.45–1.53, for triphenylamines from 1.27–1.54 to 1.20–1.47. [ABSTRACT FROM AUTHOR]

Published
2024
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22. First report on pesticide sub-chronic and chronic toxicities against dogs using QSAR and chemical read-across.

Author

Kumar, A., Ojha, P.K., and Roy, K.

Subjects
*ECOLOGICAL disturbances, *PESTICIDES, *ANIMAL experimentation, *DOGS, *HAZARDS, *AGRICULTURE
Abstract

Excessive use of chemicals is the outcome of the industrialization of agricultural sectors which leads to disturbance of ecological balance. Various agrochemicals are widely used in agricultural fields, urban green areas, and to protect from various pest-associated diseases. Due to their long-term health and environmental hazards, chronic toxicity assessment is crucial. Since in vivo and in vitro toxicity assessments are costly, lengthy, and require a large number of animal experiments, in silico toxicity approaches are better alternatives to save time, cost, and animal experimentation. We have developed the first regression-based 2D-QSAR models using different sub-chronic and chronic toxicity data of pesticides against dogs employing 2D descriptors. From the statistical results ($n{\rm{train}} = 53 - 62,{\rm{ }}{r^2}$ n train = 53 − 62 , r 2 = 0.614 to 0.754, $Q_{{\rm{LOO}}}^2$ Q L O O 2 = 0.501 to 0.703 and ${\rm{ }}Q_{\left({{\rm{F}}1} \right)}^2$ Q F 1 2 = 0.531 to 0.718, $Q_{\left({{\rm{F}}2} \right)}^2 = 0.523 - 0.713$ Q F 2 2 = 0.523 − 0.713), it was concluded that the models are robust, reliable, interpretable, and predictive. Similarity-based read-across algorithm was also used to improve the predictivity ($Q_{\left({{\rm{F}}1} \right)}^2 = 0.595 - 0.813, Q_{\left({{\rm{F}}2} \right)}^2 = 0.573 - 0.809$ Q F 1 2 = 0.595 − 0.813 , Q F 2 2 = 0.573 − 0.809) of the models. 5132 chemicals obtained from the CPDat and 1694 pesticides obtained from the PPDB database were also screened using the developed models, and their predictivity and reliability were checked. Thus, these models will be helpful for eco-toxicological data-gap filling, toxicity prediction of untested pesticides, and development of novel, safer & eco-friendly pesticides. [ABSTRACT FROM AUTHOR]

Published
2024
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23. Utility of in vivo metabolomics to support read-across for UVCB substances under REACH.

Author

Kamp, H., Kocabas, N. Aygun, Faulhammer, F., Synhaeve, N., Rushton, E., Flick, B., Giri, V., Sperber, S., Higgins, L. G., Penman, M. G., van Ravenzwaay, B., and Rooseboom, M.

Subjects
*METABOLOMICS, *MULTIVARIATE analysis, *CHEMICAL testing, *BIOMATERIALS, *DICYCLOPENTADIENE, *FOOD consumption
Abstract

Structure-based grouping of chemicals for targeted testing and read-across is an efficient way to reduce resources and animal usage. For substances of unknown or variable composition, complex reaction products, or biological materials (UVCBs), structure-based grouping is virtually impossible. Biology-based approaches such as metabolomics could provide a solution. Here, 15 steam-cracked distillates, registered in the EU through the Lower Olefins Aromatics Reach Consortium (LOA), as well as six of the major substance constituents, were tested in a 14-day rat oral gavage study, in line with the fundamental elements of the OECD 407 guideline, in combination with plasma metabolomics. Beyond signs of clinical toxicity, reduced body weight (gain), and food consumption, pathological investigations demonstrated the liver, thyroid, kidneys (males only), and hematological system to be the target organs. These targets were confirmed by metabolome pattern recognition, with no additional targets being identified. While classical toxicological parameters did not allow for a clear distinction between the substances, univariate and multivariate statistical analysis of the respective metabolomes allowed for the identification of several subclusters of biologically most similar substances. These groups were partly associated with the dominant (> 50%) constituents of these UVCBs, i.e., indene and dicyclopentadiene. Despite minor differences in clustering results based on the two statistical analyses, a proposal can be made for the grouping of these UVCBs. Both analyses correctly clustered the chemically most similar compounds, increasing the confidence that this biological approach may provide a solution for the grouping of UVCBs. [ABSTRACT FROM AUTHOR]

Published
2024
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24. Physiologically based kinetic (PBK) modeling of propiconazole using a machine learning-enhanced read-across approach for interspecies extrapolation

Author

Yaoxing Wu, Gabriel Sinclair, Raghavendhran Avanasi, and Alison Pecquet

Subjects
Propiconazole, Triazole, PBPK, Read-across, Risk assessment, Environmental sciences, GE1-350
Abstract

A significant challenge in the traditional human health risk assessment of agrochemicals is the uncertainty in quantifying the interspecies differences between animal models and humans. To work toward a more accurate and animal-free risk determination, new approaches such as physiologically based kinetic (PBK) modeling have been used to perform dosimetry extrapolation from animals to humans. However, the regulatory use and acceptance of PBK modeling is limited for chemicals that lack in vivo animal pharmacokinetic (PK) data, given the inability to evaluate models. To address these challenges, this study developed PBK models in the absence of in vivo PK data for the fungicide propiconazole, an activator of constitutive androstane receptor (CAR)/pregnane X receptor (PXR). A fit-for-purpose read-across approach was integrated with hierarchical clustering − an unsupervised machine learning algorithm, to bridge the knowledge gap. The integration allowed the incorporation of a broad spectrum of attributes for analog consideration, and enabled the analog selection in a simple, reproducible, and objective manner. The applicability was evaluated and demonstrated using penconazole (source) and three pseudo-unknown target chemicals (epoxiconazole, tebuconazole and triadimefon). Applying this machine learning-enhanced read-across approach, difenoconazole was selected as the most appropriate analog for propiconazole. A mouse PBK model was developed and evaluated for difenoconazole (source), with the mode of action of CAR/PXR activation incorporated to simulate the in vivo autoinduction of metabolism. The difenoconazole mouse model then served as a template for constructing the propiconazole mouse model. A parallelogram approach was subsequently applied to develop the propiconazole rat and human models, enabling a quantitative assessment of interspecies differences in dosimetry. This integrated approach represents a substantial advancement toward refining risk assessment of propiconazole within the framework of animal alternative safety assessment strategies.

Published
2024
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25. Next-generation risk assessment read-across case study: application of a 10-step framework to derive a safe concentration of daidzein in a body lotion

Author

Abdulkarim Najjar, Jochen Kühnl, Daniela Lange, Camille Géniès, Carine Jacques, Eric Fabian, Anne Zifle, Nicola J. Hewitt, and Andreas Schepky

Subjects
daidzein, genistein, PBPK, safety assessment, read-across, Therapeutics. Pharmacology, RM1-950
Abstract

Introduction: We performed an exposure-based Next Generation Risk Assessment case read-across study using New Approach Methodologies (NAMs) to determine the highest safe concentration of daidzein in a body lotion, based on its similarities with its structural analogue, genistein. Two assumptions were: (1) daidzein is a new chemical and its dietary intake omitted; (2) only in vitro data were used for daidzein, while in vitro and legacy in vivo data for genistein were considered.Methods: The 10-step tiered approach evaluating systemic toxicity included toxicokinetics NAMs: PBPK models and in vitro biokinetics measurements in cells used for toxicogenomics and toxicodynamic NAMs: pharmacology profiling (i.e., interaction with molecular targets), toxicogenomics and EATS assays (endocrine disruption endpoints). Whole body rat and human PBPK models were used to convert external doses of genistein to plasma concentrations and in vitro Points of Departure (PoD) to external doses. The PBPK human dermal module was refined using in vitro human skin metabolism and penetration data.Results: The most relevant endpoint for daidzein was from the ERα assay (Lowest Observed Effective Concentration was 100 ± 0.0 nM), which was converted to an in vitro PoD of 33 nM. After application of a safety factor of 3.3 for intra-individual variability, the safe concentration of daidzein was estimated to be 10 nM. This was extrapolated to an external dose of 0.5 μg/cm2 for a body lotion and face cream, equating to a concentration of 0.1%.Discussion: When in vitro PoD of 33 nM for daidzein was converted to an external oral dose in rats, the value correlated with the in vivo NOAEL. This increased confidence that the rat oral PBPK model provided accurate estimates of internal and external exposure and that the in vitro PoD was relevant in the safety assessment of both chemicals. When plasma concentrations estimated from applications of 0.1% and 0.02% daidzein were used to calculate bioactivity exposure ratios, values were >1, indicating a good margin between exposure and concentrations causing adverse effects. In conclusion, this case study highlights the use of NAMs in a 10-step tiered workflow to conclude that the highest safe concentration of daidzein in a body lotion is 0.1%.

Published
2024
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26. Application of read-across methods as a framework for the estimation of emissions from chemical processes

Author

Sudhakar Takkellapati and Michael A. Gonzalez

Subjects
read-across, chemical process emissions, source chemical, target chemical, analogue chemical, chemical family, category of chemicals, structural similarity, Energy industries. Energy policy. Fuel trade, HD9502-9502.5, Energy conservation, TJ163.26-163.5, Renewable energy sources, TJ807-830, Environmental technology. Sanitary engineering, TD1-1066
Abstract

The read-across method is a popular data gap filling technique with developed application for multiple purposes, including regulatory. Within the US Environmental Protection Agency's (US EPA) New Chemicals Program under Toxic Substances Control Act (TSCA), read-across has been widely used, as well as within technical guidance published by the Organization for Economic Co-operation and Development, the European Chemicals Agency, and the European Center for Ecotoxicology and Toxicology of Chemicals for filling chemical toxicity data gaps. Under the TSCA New Chemicals Review Program, US EPA is tasked with reviewing proposed new chemical applications prior to commencing commercial manufacturing within or importing into the United States. The primary goal of this review is to identify any unreasonable human health and environmental risks, arising from environmental releases/emissions during manufacturing and the resulting exposure from these environmental releases. The authors propose the application of read-across techniques for the development and use of a framework for estimating the emissions arising during the chemical manufacturing process. This methodology is to utilize available emissions data from a structurally similar analogue chemical or a group of structurally similar chemicals in a chemical family taking into consideration their physicochemical properties under specified chemical process unit operations and conditions. This framework is also designed to apply existing knowledge of read-across principles previously utilized in toxicity estimation for an analogue or category of chemicals and introduced and extended with a concurrent case study.

Published
2023
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29. Safety of 41 flavouring compounds providing a herbal flavour and belonging to different chemical groups for use as feed additives in all animal species (FEFANA asbl).

Author

Bampidis, Vasileios, Azimonti, Giovanna, Bastos, Maria de Lourdes, Christensen, Henrik, Dusemund, Birgit, Durjava, Mojca, Kouba, Maryline, López‐Alonso, Marta, López Puente, Secundino, Marcon, Francesca, Mayo, Baltasar, Pechová, Alena, Petkova, Mariana, Ramos, Fernando, Villa, Roberto Edoardo, Woutersen, Ruud, Brantom, Paul, Chesson, Andrew, Dierick, Noël, and Martelli, Giovanna

Subjects
*ANIMAL species, *FEED additives, *ATLANTIC salmon, *ANIMAL feeds, *SUBSTANCE abuse
Abstract

Following a request from the European Commission, EFSA was asked to deliver a scientific opinion on the safety of 41 compounds to provide a Herbal flavour and belonging to different chemical groups, when used as sensory additives in feed for all animal species. Fourteen out of the 41 compounds were tested in tolerance studies in chickens for fattening, piglets, cattle for fattening and Atlantic salmon. No adverse effects were observed in the tolerance studies at 10‐fold the intended level. The Panel on Additives and Products or Substances used in Animal Feed (FEEDAP) concluded that the 14 tested compounds were safe for these species at the proposed use level and conclusions were extrapolated to all animal species. For the remaining 27 compounds, read‐across from structurally similar compounds tested in tolerance trials and belonging to the same chemical group was applied. The FEEDAP Panel concluded that these 27 compounds were safe for all animal species at the proposed use level. No safety concern would arise for the consumer and the environment from the use of the 41 compounds up to the maximum proposed use level in feed. [ABSTRACT FROM AUTHOR]

Published
2023
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30. The Effects of Short- and Long-Chain PFAS On In Vitro Triple Negative Breast Cancer Progression

Author

Delgadillo, Hector Antonio

Subjects
Toxicology, Environmental science, Cellular biology, 3D, Breast cancer, Environmental toxicology, In vitro, Perfluoroalkyl substances, Read-Across
Abstract

Per- and polyfluoroalkyl substances (PFAS) are a class of compounds commonly used as surfactants in food contact materials and household items due to their hydrophobicity. However, their physicochemical properties render them highly resistant to degradation in the environment and human body. Thus, these chemicals are environmentally ubiquitous and have been found in the serum of 98% of U.S. citizens. Evidence implicates some well characterized PFAS in breast cell carcinogenesis and cancer progression. While PFAS-induced receptor-positive breast cancer progression has been widely investigated, PFAS-induced receptor-negative breast cancer has not, and molecular mechanisms remain unclear. Additionally, Generalized Read-Across of PFAS using cancer progression endpoints are lacking. This research analyzes and compares the effects of five PFAS of increasing alkyl chain length on triple negative breast cancer progression in vitro. Using the aggressive human cell line Hs578T the effects of five PFAS were analyzed across environmentally relevant doses. Progression was assessed through 2D cell proliferation assays and “2.5D” Matrigel migration and invasion assays. Results showed significant decreases in mean number of protrusions per cell and total colony formation per well with PFBA and PFDoA treatment. Significant decreases in colony formation were observed with PFDA treatment at all doses. The mean length of the longest protrusion per cell was largely unimpacted by PFAS, except for decreases by PFDoA. When viewing the data though read-across lenses, near significant trends were seen in protrusion counts with increasing alkyl chain length at 1 nM and 10 nM PFAS. The highest alkyl length significantly decreased colony formation in a pattern seen across 10 nM, 100 nM and 1000 nM doses. Cell proliferation was not impacted by PFAS treatment. These results will help elucidate whether triple negative breast cancer progression is related to dose and alkyl chain length, and whether short-chain PFAS exhibit increased progression as longer PFAS have been shown to promote.

Published
2024

31. QSAR and Chemical Read-Across Analysis of 370 Potential MGMT Inactivators to Identify the Structural Features Influencing Inactivation Potency.

Author

Sun, Guohui, Bai, Peiying, Fan, Tengjiao, Zhao, Lijiao, Zhong, Rugang, McElhinney, R. Stanley, McMurry, T. Brian H., Donnelly, Dorothy J., McCormick, Joan E., Kelly, Jane, and Margison, Geoffrey P.

Subjects
*ANALYTICAL chemistry, *O6-Methylguanine-DNA Methyltransferase, *STRUCTURE-activity relationships, *AMINO group, *IONIZATION energy, *VIRUS inactivation
Abstract

O6-methylguanine-DNA methyltransferase (MGMT) constitutes an important cellular mechanism for repairing potentially cytotoxic DNA damage induced by guanine O6-alkylating agents and can render cells highly resistant to certain cancer chemotherapeutic drugs. A wide variety of potential MGMT inactivators have been designed and synthesized for the purpose of overcoming MGMT-mediated tumor resistance. We determined the inactivation potency of these compounds against human recombinant MGMT using [3H]-methylated-DNA-based MGMT inactivation assays and calculated the IC50 values. Using the results of 370 compounds, we performed quantitative structure–activity relationship (QSAR) modeling to identify the correlation between the chemical structure and MGMT-inactivating ability. Modeling was based on subdividing the sorted pIC50 values or on chemical structures or was random. A total of nine molecular descriptors were presented in the model equation, in which the mechanistic interpretation indicated that the status of nitrogen atoms, aliphatic primary amino groups, the presence of O-S at topological distance 3, the presence of Al-O-Ar/Ar-O-Ar/R..O..R/R-O-C=X, the ionization potential and hydrogen bond donors are the main factors responsible for inactivation ability. The final model was of high internal robustness, goodness of fit and prediction ability (R2pr = 0.7474, Q2Fn = 0.7375–0.7437, CCCpr = 0.8530). After the best splitting model was decided, we established the full model based on the entire set of compounds using the same descriptor combination. We also used a similarity-based read-across technique to further improve the external predictive ability of the model (R2pr = 0.7528, Q2Fn = 0.7387–0.7449, CCCpr = 0.8560). The prediction quality of 66 true external compounds was checked using the "Prediction Reliability Indicator" tool. In summary, we defined key structural features associated with MGMT inactivation, thus allowing for the design of MGMT inactivators that might improve clinical outcomes in cancer treatment. [ABSTRACT FROM AUTHOR]

Published
2023
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32. Deimos: A novel automated methodology for optimal grouping. Application to nanoinformatics case studies.

Author

Varsou, Dimitra‐Danai and Sarimveis, Haralambos

Subjects
MEDICAL informatics, FEATURE selection, REGRESSION analysis, PREDICTION models, MATHEMATICAL optimization
Abstract

In this study we present deimos, a computational methodology for optimal grouping, applied on the read‐across prediction of engineered nanomaterials' (ENMs) toxicity‐related properties. The method is based on the formulation and the solution of a mixed‐integer optimization program (MILP) problem that automatically and simultaneously performs feature selection, defines the grouping boundaries according to the response variable and develops linear regression models in each group. For each group/region, the characteristic centroid is defined in order to allocate untested ENMs to the groups. The deimos MILP problem is integrated in a broader optimization workflow that selects the best performing methodology between the standard multiple linear regression (MLR), the least absolute shrinkage and selection operator (LASSO) models and the proposed deimos multiple‐region model. The performance of the suggested methodology is demonstrated through the application to benchmark ENMs datasets and comparison with other predictive modelling approaches. However, the proposed method can be applied to property prediction of other than ENM chemical entities and it is not limited to ENMs toxicity prediction. [ABSTRACT FROM AUTHOR]

Published
2023
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33. Computational Modeling of Human Serum Albumin Binding of Per- and Polyfluoroalkyl Substances Employing QSAR, Read-Across, and Docking.

Author

Gallagher, Andrea, Kar, Supratik, and Sepúlveda, Maria S.

Subjects
*FLUOROALKYL compounds, *QSAR models, *MOLECULAR connectivity index, *CHEMICAL models, *CARRIER proteins, *SERUM albumin
Abstract

Per- and polyfluoroalkyl substances (PFAS) are synthetic chemicals in widespread use that have been shown to be toxic to wildlife and humans. Human serum albumin (HSA) is a known transport protein that binds PFAS at various sites, leading to bioaccumulation and long-term toxicity. In silico tools like quantitative structure-activity relationship (QSAR), read-across, and quantitative read-across structure-property relationship (q-RASPR) are proven techniques for modeling chemical toxicity based on experimental data which can be used to predict the toxicity of untested and new chemicals, while at the same time, help to identify the major features responsible for toxicity. Classification-based and regression-based QSAR models are employed in the present study to predict the binding affinities of 24 PFAS to HSA. Regression-based QSAR models revealed that the packing density index (PDI) and quantitative estimation of drug-likeness (QED) descriptors were both positively correlated with higher binding affinity, while the classification-based QSAR model showed the average connectivity index of order 4 (X4A) descriptor was inversely correlated with binding affinity. Whereas molecular docking studies suggested that PFAS with the highest binding affinity to HSA create hydrogen bonds with Arg348 and salt bridges with Arg348 and Arg485, PFAS with lower binding affinity either showed no interactions with either amino acid or only interactions with Arg348. Among the studied PFAS, perfluoroalkyl acids (PFAA) with large carbon chain length (>C10) have one of the lowest binding affinities, compared to PFAA with carbon chain length ranging from 7 to 9, which showed the highest affinity to HSA. Generalized Read-Across (GenRA) was used to predict toxicity outcomes for the top five highest binding affinity PFAS based on 10 structural analogs for each and found that all are predicted as being chronic to sub-chronically toxic to HSA. The developed in silico models presented in this work can provide a framework for designing PFAS alternatives, screening compounds currently in use, and for the study of PFAS mixture toxicity, which is an area of intense research. [ABSTRACT FROM AUTHOR]

Published
2023
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34. Integrative Chemical–Biological Grouping of Complex High Production Volume Substances from Lower Olefin Manufacturing Streams.

Author

Cordova, Alexandra C., Klaren, William D., Ford, Lucie C., Grimm, Fabian A., Baker, Erin S., Zhou, Yi-Hui, Wright, Fred A., and Rusyn, Ivan

Subjects
ALKENES, PRODUCTION quantity, ION mobility spectroscopy, PETROLEUM products, BIOMATERIALS, LIVER cells
Abstract

Human cell-based test methods can be used to evaluate potential hazards of mixtures and products of petroleum refining ("unknown or variable composition, complex reaction products, or biological materials" substances, UVCBs). Analyses of bioactivity and detailed chemical characterization of petroleum UVCBs were used separately for grouping these substances; a combination of the approaches has not been undertaken. Therefore, we used a case example of representative high production volume categories of petroleum UVCBs, 25 lower olefin substances from low benzene naphtha and resin oils categories, to determine whether existing manufacturing-based category grouping can be supported. We collected two types of data: nontarget ion mobility spectrometry-mass spectrometry of both neat substances and their organic extracts and in vitro bioactivity of the organic extracts in five human cell types: umbilical vein endothelial cells and induced pluripotent stem cell-derived hepatocytes, endothelial cells, neurons, and cardiomyocytes. We found that while similarity in composition and bioactivity can be observed for some substances, existing categories are largely heterogeneous. Strong relationships between composition and bioactivity were observed, and individual constituents that determine these associations were identified. Overall, this study showed a promising approach that combines chemical composition and bioactivity data to better characterize the variability within manufacturing categories of petroleum UVCBs. [ABSTRACT FROM AUTHOR]

Published
2023
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35. Computational modeling of PET imaging agents for vesicular acetylcholine transporter (VAChT) protein binding affinity: application of 2D-QSAR modeling and molecular docking techniques.

Author

De, Priyanka and Roy, Kunal

Subjects
*MOLECULAR docking, *PROTEIN binding, *ACETYLCHOLINE, *POSITRON emission tomography, *ALZHEIMER'S disease, *POLYETHYLENE terephthalate, *CHOLINERGIC receptors
Abstract

The neurotransmitter acetylcholine (ACh) plays a ubiquitous role in cognitive functions including learning and memory with widespread innervation in the cortex, subcortical structures, and the cerebellum. Cholinergic receptors, transporters, or enzymes associated with many neurodegenerative diseases, including Alzheimer's disease (AD) and Parkinson's disease (PD), are potential imaging targets. In the present study, we have developed 2D-quantitative structure–activity relationship (2D-QSAR) models for 19 positron emission tomography (PET) imaging agents targeted against presynaptic vesicular acetylcholine transporter (VAChT). VAChT assists in the transport of ACh into the presynaptic storage vesicles, and it becomes one of the main targets for the diagnosis of various neurodegenerative diseases. In our work, we aimed to understand the important structural features of the PET imaging agents required for their binding with VAChT. This was done by feature selection using a Genetic Algorithm followed by the Best Subset Selection method and developing a Partial Least Squares- based 2D-QSAR model using the best feature combination. The developed QSAR model showed significant statistical performance and reliability. Using the features selected in the 2D-QSAR analysis, we have also performed similarity-based chemical read-across predictions and obtained encouraging external validation statistics. Further, we have also performed molecular docking analysis to understand the molecular interactions occurring between the PET imaging agents and the VAChT receptor. The molecular docking results were correlated with the QSAR features for a better understanding of the molecular interactions. This research serves to fulfill the experimental data gap, highlighting the applicability of computational methods in the PET imaging agents' binding affinity prediction. [ABSTRACT FROM AUTHOR]

Published
2023
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36. Grouping MWCNTs based on their similar potential to cause pulmonary hazard after inhalation: a case-study

Author

Fiona Murphy, Nicklas Raun Jacobsen, Emilio Di Ianni, Helinor Johnston, Hedwig Braakhuis, Willie Peijnenburg, Agnes Oomen, Teresa Fernandes, and Vicki Stone

Subjects
Grouping, Read-across, High aspect ratio nanomaterials, Toxicology. Poisons, RA1190-1270, Industrial hygiene. Industrial welfare, HD7260-7780.8
Abstract

Abstract Background The EU-project GRACIOUS developed an Integrated Approach to Testing and Assessment (IATA) to support grouping high aspect ratio nanomaterials (HARNs) presenting a similar inhalation hazard. Application of grouping reduces the need to assess toxicity on a case-by-case basis and supports read-across of hazard data from substances that have the data required for risk assessment (source) to those that lack such data (target). The HARN IATA, based on the fibre paradigm for pathogenic fibres, facilitates structured data gathering to propose groups of similar HARN and to support read-across by prompting users to address relevant questions regarding HARN morphology, biopersistence and inflammatory potential. The IATA is structured in tiers, allowing grouping decisions to be made using simple in vitro or in silico methods in Tier1 progressing to in vivo approaches at the highest Tier3. Here we present a case-study testing the applicability of GRACIOUS IATA to form an evidence-based group of multiwalled carbon nanotubes (MWCNT) posing a similar predicted fibre-hazard, to support read-across and reduce the burden of toxicity testing. Results The case-study uses data on 15 different MWCNT, obtained from the published literature. By following the IATA, a group of 2 MWCNT was identified (NRCWE006 and NM-401) based on a high degree of similarity. A pairwise similarity assessment was subsequently conducted between the grouped MWCNT to evaluate the potential to conduct read-across and fill data gaps required for regulatory hazard assessment. The similarity assessment, based on expert judgement of Tier 1 assay results, predicts both MWCNT are likely to cause a similar acute in vivo hazard. This result supports the possibility for read-across of sub-chronic and chronic hazard endpoint data for lung fibrosis and carcinogenicity between the 2 grouped MWCNT. The implications of accepting the similarity assessment based on expert judgement of the MWCNT group are considered to stimulate future discussion on the level of similarity between group members considered sufficient to allow regulatory acceptance of a read-across argument. Conclusion This proof-of-concept case-study demonstrates how a grouping hypothesis and IATA may be used to support a nuanced and evidence-based grouping of ‘similar’ MWCNT and the subsequent interpolation of data between group members to streamline the hazard assessment process.

Published
2022
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37. A KNIME Workflow to Assist the Analogue Identification for Read-Across, Applied to Aromatase Activity.

Author

Caballero Alfonso, Ana Yisel, Chayawan, Chayawan, Gadaleta, Domenico, Roncaglioni, Alessandra, and Benfenati, Emilio

Subjects
*AROMATASE, *WORKFLOW, *WORKFLOW management, *DATABASES, *MICROSATELLITE repeats, *IN vivo studies
Abstract

The reduction and replacement of in vivo tests have become crucial in terms of resources and animal benefits. The read-across approach reduces the number of substances to be tested, exploiting existing experimental data to predict the properties of untested substances. Currently, several tools have been developed to perform read-across, but other approaches, such as computational workflows, can offer a more flexible and less prescriptive approach. In this paper, we are introducing a workflow to support analogue identification for read-across. The implementation of the workflow was performed using a database of azole chemicals with in vitro toxicity data for human aromatase enzymes. The workflow identified analogues based on three similarities: structural similarity (StrS), metabolic similarity (MtS), and mechanistic similarity (McS). Our results showed how multiple similarity metrics can be combined within a read-across assessment. The use of the similarity based on metabolism and toxicological mechanism improved the predictions in particular for sensitivity. Beyond the results predicting a large population of substances, practical examples illustrate the advantages of the proposed approach. [ABSTRACT FROM AUTHOR]

Published
2023
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38. Risk assessment of aromatic organic chemicals to T. pyriformis in environmental protection using regression-based QSTR and Read-Across algorithm.

Author

Kumar, Ankur, Podder, Trina, Kumar, Vinay, and Ojha, Probir Kumar

Subjects
*ORGANIC compounds, *ENVIRONMENTAL protection, *RISK assessment, *PARTIAL least squares regression, *POISONS, *DESCRIPTOR systems
Abstract

Hazardous aromatic compounds have a high probability of entering the surrounding environment, posing a threat to humans and other habitats. It is, thus, necessary to estimate the toxicity of these chemicals as a preventive measure before being marketed. The present study involves the development of in silico-based predictive 2D-QSTR models using a PLS regression approach for the exploration of the structural features responsible for the toxicity of T. pyriformis using simple and easily interpretable 2D descriptors employing a dataset containing 892 chemicals. The developed model was extensively validated by evaluating the model's reliability and predictability using internationally accepted external and internal validation metrics. We have also used the "Intelligent Consensus Predictor" tool and Read-Across software, which shows better results for test set compounds as compared with individual PLS models. We have also validated the models using a set of 383 external set compounds which are not used for the development of models. The results suggested that molecules with aliphatic aldehyde groups are much more toxic to the protozoan whereas chemicals containing C–N fragments at the topological distance 3 & 4, polar and alcoholic groups are less toxic to the protozoan. In conclusion, the developed QSTR and Read-Across models might be extremely beneficial as guides for researchers to estimate the toxicity profile of novel compounds against T. pyriformis. [Display omitted] [ABSTRACT FROM AUTHOR]

Published
2023
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39. Structure-activity relationship read-across and transcriptomics for branched carboxylic acids.

Author

Wu, Shengde, Ellison, Corie, Naciff, Jorge, Karb, Michael, Obringer, Cindy, Yan, Gang, Shan, Yuqing, Smith, Alex, Wang, Xiaohong, and Daston, George P

Subjects
*STRUCTURE-activity relationships, *OCTANOIC acid, *VALPROIC acid, *CHEMICAL testing, *ACETIC acid, *CARBOXYLIC acids
Abstract

The purpose of this study was to use chemical similarity evaluations, transcriptional profiling, in vitro toxicokinetic data, and physiologically based pharmacokinetic (PBPK) models to support read-across for a series of branched carboxylic acids using valproic acid (VPA), a known developmental toxicant, as a comparator. The chemicals included 2-propylpentanoic acid (VPA), 2-ethylbutanoic acid, 2-ethylhexanoic acid (EHA), 2-methylnonanoic acid, 2-hexyldecanoic acid, 2-propylnonanoic acid (PNA), dipentyl acetic acid or 2-pentylheptanoic acid, octanoic acid (a straight chain alkyl acid), and 2-ethylhexanol. Transcriptomics was evaluated in 4 cell types (A549, HepG2, MCF7, and iCell cardiomyocytes) 6 h after exposure to 3 concentrations of the compounds, using the L1000 platform. The transcriptional profiling data indicate that 2- or 3-carbon alkyl substituents at the alpha position of the carboxylic acid (EHA and PNA) elicit a transcriptional profile similar to the one elicited by VPA. The transcriptional profile is different for the other chemicals tested, which provides support for limiting read-across from VPA to much shorter and longer acids. Molecular docking models for histone deacetylases, the putative target of VPA, provide a possible mechanistic explanation for the activity cliff elucidated by transcriptomics. In vitro toxicokinetic data were utilized in a PBPK model to estimate internal dosimetry. The PBPK modeling data show that as the branched chain increases, predicted plasma Cmax decreases. This work demonstrates how transcriptomics and other mode of action-based methods can improve read-across. [ABSTRACT FROM AUTHOR]

Published
2023
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40. Safety of 27 flavouring compounds providing a milky‐vanilla flavour and belonging to different chemical groups for use as feed additives in all animal species (FEFANA asbl).

Author

Bampidis, Vasileios, Azimonti, Giovanna, Bastos, Maria de Lourdes, Christensen, Henrik, Dusemund, Birgit, Fašmon Durjava, Mojca, Kouba, Maryline, López‐Alonso, Marta, López Puente, Secundino, Marcon, Francesca, Mayo, Baltasar, Pechová, Alena, Petkova, Mariana, Ramos, Fernando, Sanz, Yolanda, Villa, Roberto Edoardo, Woutersen, Ruud, Brantom, Paul, Chesson, Andrew, and Dierick, Noël

Subjects
*ANIMAL species, *FEED additives, *ANIMAL feeds, *ANIMAL industry, *SUBSTANCE abuse, *SAFETY
Abstract

Following a request from the European Commission, EFSA was asked to deliver a scientific opinion on the safety of 27 compounds to provide a milky‐vanilla flavour belonging to different chemical groups, when used as sensory additives in feed for all animal species. Fifteen of the 27 compounds were tested in tolerance studies in chickens for fattening, piglets and cattle for fattening. No adverse effects were observed in the tolerance studies at 10‐fold the intended level. The Panel on Additives and Products or Substances used in Animal Feed (FEEDAP) concluded that the 15 tested compounds were safe for these species at the proposed use level and conclusions were extrapolated to all animal species. For the remaining 12 compounds, read‐across from structurally similar compounds tested in tolerance trials and belonging to the same chemical group was applied. The FEEDAP Panel concluded that these 12 compounds were safe for all animal species at the proposed use level. No safety concern would arise for the consumer from the use of the 27 compounds up to the highest levels considered safe for target animals. No new data were submitted on the safety for the user that would allow the FEEDAP Panel to change its previous conclusion for 5‐methylhept‐2‐en‐4‐one [07.139], 5‐methylfurfural [13.001] and 4‐phenylbut‐3‐en‐2‐one [07.024]. The concentrations considered safe for the target species are unlikely to have detrimental effects on the environment for all the compounds. [ABSTRACT FROM AUTHOR]

Published
2023
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41. First report on soil ecotoxicity prediction against Folsomia candida using intelligent consensus predictions and chemical read-across.

Author

Paul, Rahul, Chatterjee, Mainak, and Roy, Kunal

Subjects
CANDIDA, QSAR models, SOIL invertebrates, ELECTRON donors, SUBSET selection
Abstract

Soil invertebrates serve as an outstanding biological indicator of the terrestrial ecosystem and overall soil quality, considering their high sensitivity when compared to other indicators of soil quality. In this study, the available soil ecotoxicity data (pEC50) against the soil invertebrate Folsomia candida (C. name: Springtail) (n = 45) were collated from the database of ECOTOX (cfpub.epa.gov/ecotox) and subjected to QSAR analysis using 2D descriptors. Four partial least squares (PLS) models were built based on the features selected through genertic algorithm followed by the best subset selection. These four models were then used as inputs for Intelligent Consensus Predictor version 1.2 (PLS version) to get the final consensus predictions, using the best selection of predictions (compound-wise) from four "qualified" individual models. Both internal and external validations metrics of the consensus predictions are well- balanced and within the acceptable range as per the OECD criteria. The consensus model was found to be better than the previous developed models for this endpoint. Predictions were also made using the Chemical Read-across approach, which showed even better external validation metric values than the consensus predictions. From the selected features in the QSAR models, it has been found out that molecular weight and presence of a di-thiophosphate group, electron donor groups, and polyhalogen substitutions have a significant impact on the soil ecotoxicity. The soil ecotoxicological risk assessment of organic chemicals can therefore be prioritized by these features. The models developed from diverse structural organic compounds can be applied to any new query compound for data gap filling. [ABSTRACT FROM AUTHOR]

Published
2022
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42. Current trends in read-across applications for chemical risk assessments and chemical registrations in the Republic of Korea.

Author

Lee, Sang Hee, Kim, Jongwoon, Kim, Jinyong, Park, Jaehyun, Park, Sanghee, Kim, Kyu-Bong, Lee, Byung-Mu, and Kwon, Seok

Subjects
*STRUCTURE-activity relationships, *RISK assessment, *GOVERNMENT agencies, *RECORDING & registration, *MANUFACTURING processes
Abstract

Read-across, an alternative approach for hazard assessment, has been widely adopted when in vivo data are unavailable for chemicals of interest. Read-across is enabled via in silico tools such as quantitative structure activity relationship (QSAR) modeling. In this study, the current status of structure activity relationship (SAR)-based read-across applications in the Republic of Korea (ROK) was examined considering both chemical risk assessments and chemical registrations from different sectors, including regulatory agencies, industry, and academia. From the regulatory perspective, the Ministry of Environment (MOE) established the Act on Registration and Evaluation of Chemicals (AREC) in 2019 to enable registrants to submit alternative data such as information from read-across instead of in vivo data to support hazard assessment and determine chemical-specific risks. Further, the Ministry of Food and Drug Safety (MFDS) began to consider read-across approaches for establishing acceptable intake (AI) limits of impurities occurring during pharmaceutical manufacturing processes under the ICH M7 guideline. Although read-across has its advantages, this approach also has limitations including (1) lack of standardized criteria for regulatory acceptance, (2) inconsistencies in the robustness of scientific evidence, and (3) deficiencies in the objective reliability of read-across data. The application and acceptance rate of read-across may vary among regulatory agencies. Therefore, sufficient data need to be prepared to verify the hypothesis that structural similarities might lead to similarities in properties of substances (between source and target chemicals) prior to adopting a read-across approach. In some cases, additional tests may be required during the registration process to clarify long-term effects on human health or the environment for certain substances that are data deficient. To improve the quality of read-across data for regulatory acceptance, cooperative efforts from regulatory agencies, academia, and industry are needed to minimize limitations of read-across applications. [ABSTRACT FROM AUTHOR]

Published
2022
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44. Read-Across of Biotransformation Potential between Activated Sludge and the Terrestrial Environment: Toward Making It Practical and Plausible.

Author

Coll C, Screpanti C, Hafner J, Zhang K, and Fenner K

Subjects
Soil chemistry, Half-Life, Sewage, Biotransformation
Abstract

Recent emphasis on the development of safe-and-sustainable-by-design chemicals highlights the need for methods facilitating the early assessment of persistence. Activated sludge experiments have been proposed as a time- and resource-efficient way to predict half-lives in simulation studies. Here, this persistence "read-across" approach was developed to be more broadly and robustly applicable. We evaluated 21 previously used reference plant protection products (PPPs) for their broader applicability in calibrating regression and classification models for predicting half-lives in soil (DT50 OECD307 ) and water-sediment systems (DT50 OECD308 ) based on their half-life in sludge and the organic carbon-water partition coefficient K OC as predictors. The calibrated regression models showed satisfactory predictions of DT50 OECD307 for another 22 test PPPs. Performance was less satisfying for the prediction of DT50 OECD308 for 46 active pharmaceutical ingredients (APIs), suggesting a need for expanding the set of calibration substances and more experimental K OC values. The classification models mostly correctly classified persistent and non-persistent test compounds for both PPPs and APIs, which is relevant for early-stage screening of persistence. Transformation products of the reference compounds in activated sludge samples were consistent with the reported degradation pathways in soil, particularly with respect to major aerobic, enzyme-catalyzed transformation reactions. Overall, "reading across" biotransformation in environmental compartments such as soils or sediments from experiments with activated sludge outperformed three widely used in silico approaches for estimating half-lives and hence has immediate potential to support early assessment of biodegradability when aiming to develop chemicals that are safe and sustainable by design.

Published
2025
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45. Weight of Evidence: Criteria and Applications.

Author

Colombo E, Raitano G, Viganò EL, and Benfenati E

Subjects
Risk Assessment methods, Humans, Hazardous Substances toxicity, Software, Computer Simulation
Abstract

Toxicologists and authorities evaluate substances that in the traditional way refer to data and knowledge on the toxic mechanism. Non-testing methods (NTMs) proved to be a valuable resource for risk assessment of chemical substances. Indeed, they can be particularly useful when the information provided by different sources is integrated to increase confidence in the result. In this chapter, we will address data obtained from NTM, including in silico models and read-across. Typically, these two approaches are used separately, but in this way, we lose some information. The integration of different results can be sometimes difficult because different methods can lead to conflicting results and because a clear guideline for integrating information from different sources was not available in the recent past. In this chapter, we present and discuss the recently published guideline from EFSA for integrating and weighting evidence for scientific assessment, and how to proceed, manually or through novel integrated tool, SWAN. Moreover, practical examples of the application of these integration principles on evidence from different in silico models are shown. These examples represent a demonstration of the suitability and effectiveness of in silico methods for risk assessment, as well as a practical guide to end users to perform similar analyses on likely hazardous chemicals., (© 2025. The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.)

Published
2025
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46. Integration of QSAR and NAM in the Read-Across Process for an Effective and Relevant Toxicological Assessment.

Author

Rovida C, Muscarella M, and Locatelli M

Subjects
Humans, Toxicology methods, Toxicity Tests methods, Animals, Quantitative Structure-Activity Relationship
Abstract

Read-Across (RAx) serves as a strategy to fill a data gap in the toxicological profile of a substance (target) using existing information on similar source substances. The principle is applied also to a category of substances for which similarity may follow a regular trend. Demonstration of similarity is not trivial and requires the analysis of different steps, starting from the precise analytical characterization of both target and source substances and including the analysis of the impact that each minor difference can have on the final outcome. Application of QSARs and performing new experimental tests within the new approach methodologies (NAMs) is necessary to increase confidence in the final prediction and reduce the uncertainty., (© 2025. The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.)

Published
2025
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47. Molecular Similarity in Predictive Toxicology with a Focus on the q-RASAR Technique.

Author

Banerjee A and Roy K

Subjects
Computer Simulation, Toxicology methods, Algorithms, Humans, Computational Biology methods, Software, Quantitative Structure-Activity Relationship
Abstract

The concept of similarity is an important aspect in various in silico-based prediction approaches. Most of these approaches follow the basic similarity property principle that states that two or more compounds having a high level of similarity are expected to exert similar biological activity or physicochemical property. Although in some cases this principle fails to predict the biological activity or property efficiently for certain compounds, it is applicable to most of the compounds in a given dataset. With the emerging need to efficiently fill data gaps in the regulatory context, Read-Across (RA), a similarity-based approach, has gained popularity, since this is not a statistical approach like QSAR, which requires a sizeable amount of data points to train a meaningful model. The basic idea behind Read-Across is the identification of the close source neighbors, and based on the similarity considerations, predictions are made for the query compound. Although RA is originally an unsupervised prediction method, recent efforts for quantitative Read-Across (qRA) have introduced supervised similarity-based weightage for quantitative predictions. RA is a useful tool in predictive toxicology, but one of its important drawbacks is the lack of interpretability of the features (especially for q-RA) used to generate the Read-Across-based predictions. To bridge this gap, a novel quantitative Read-Across Structure-Activity Relationship (q-RASAR) approach has recently been proposed, which combines the concepts of QSAR and Read-Across, generating statistically reliable and predictive models using similarity and error-based descriptors. The q-RASAR models are simple and interpretable and can be efficiently used to identify not only the essential features but also the nature of the source and query compounds. In this chapter, we have discussed the concepts and various studies on RA, q-RA, and q-RASAR along with some of the tools available from different research groups., (© 2025. The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.)

Published
2025
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48. A systematic analysis of read-across adaptations in testing proposal evaluations by the European Chemicals Agency.

Author

Roe HM, Tsai HD, Ball N, Wright FA, Chiu WA, and Rusyn I

Subjects
European Union, Hazardous Substances toxicity, Risk Assessment methods, Humans, Europe, Animal Testing Alternatives methods, Toxicity Tests methods
Abstract

An essential aspect of the EU’s Registration, Evaluation, Authorisation and Restriction of Chemicals (REACH) regulation is the European Chemicals Agency’s (ECHA) evaluation of testing proposals submitted by registrants to address data gaps. Registrants may propose adaptations, such as read-across, to waive standard testing; however, it is widely believed that ECHA often finds justifications for read-across hypotheses inadequate. From 2008 to August 2023, 2,630 testing proposals were submitted to ECHA; of these, 1,538 had published decisions that were systematically evaluated in this study. Each document was manually reviewed and information extracted for further analyses, focusing on 17 assessment elements (AEs) from the Read-Across Assessment Framework (RAAF) and testing proposal evaluations (TPE). Each submission was classified as to the AEs relied upon by the registrants and by ECHA. Data was analyzed for patterns and associations. Adaptations were included in 23% (350) of proposals, with analogue (168) and group (136) read-across being most common. Of the 304 read-across hypotheses, 49% were accepted, with group read-across showing significantly higher odds of acceptance. Data analysis examined factors such as tonnage band (Annex), test guidelines, hypothesis AEs, and structural similarities of target and source sub­stances. While decisions were often context-specific, several significant associations influencing acceptance emerged. Overall, this analysis provides a comprehensive overview of 15 years of experience with testing proposal-specific read-across adaptations by both registrants and ECHA. These data will inform future submissions as they identify most critical AEs to increase the odds of read-across acceptance.

Published
2025
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49. Skin Sensitization Potency Prediction Based on Read-Across (RAx) Incorporating RhE-Based Testing Strategy (RTSv1)-Defined Approach: RTSv1-Based RAx.

Author

Suzuki S, Mizumachi H, and Miyazawa M

Abstract

In recent years, nonanimal approaches for skin sensitization have been developed in response to political, regulatory, and ethical demands. The reconstructed human epidermis (RhE)-based testing strategy (RTS)v1-defined approach (DA) is used to categorize skin sensitization potency. However, the RTSv1 DA alone cannot be used to predict potency based on EC3 values [the estimated concentration that produces a stimulation index of 3 in the local lymph node assay (LLNA)], and underpredictions have been reported. Read-across (RAx) can complement DA data and improve prediction confidence. Although case studies combining new approach methodology/DA data with RAx have been reported, they focus on a single target chemical and lack a comprehensive and robust strategy with well-examined reliability. This study developed a strategy incorporating the RTSv1 DA into RAx (RTSv1-based RAx) to predict skin sensitization potency, applying it to 43 chemicals. The predictive performance of RTSv1-based RAx was evaluated by comparing its predicted potency category and EC3 outcomes with those of RTSv1 DA and the LLNA. RTSv1-based RAx accurately predicted the Globally Harmonized System of Classification (GHS) subcategorization for 38 chemicals and determined the predicted EC3 values for 17 sensitizers within a fourfold range of LLNA-derived EC3 values. This study demonstrates that RTSv1-based RAx offers robust predictivity for both GHS subcategorization and predicted EC3 values, making it useful for quantitative risk assessment., (© 2024 John Wiley & Sons Ltd.)

Published
2024
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50. Simulated gastric hydrolysis and developmental toxicity of dimethyltin bis(2-ethylhexylthioglycolate) in rats

Author

Dominik Kirf, Richard Costlow, Hans Nasshan, Peter Frenkel, and Donna Mondimore

Subjects
teratology, rat, dimethyltin bis(2-ethylhexylthioglycolate), read-across, gastric hydrolysis, CAS 57583-35-4, Toxicology. Poisons, RA1190-1270
Abstract

Dimethyltin dichloride is used as the putative toxophore for dimethyltin bis-alkylthio esters in a read-across approach. Recent chemical and toxicological investigations challenges this read across as data on dioctyltin bis(2-ethylhexyl thioglycolate) and dibutyltin bis(2-ethylhexyl thioglycolate) showed the dialkyltin thioglycolates do not generate dialkyltin dichloride. Results obtained by 119Sn-NMR spectroscopy demonstrated that dimethyltin bis(2-ethylhexyl thioglycolate), the smallest commercially manufactured dialkyltin thioester molecule of this kind, hydrolyzed to dimethyltin chloro-(2-ethylhexyl) thioglycolate under simulated gastric conditions. These studies did not detect dimethyltin dichloride. Dimethyltin bis(2-ethylhexyl thioglycolate) was administered orally to timed-pregnant Wistar-Han rats in an Arachis oil vehicle at 5, 10, and 25 mg/kg/day [Gestation Day 6 (GD6) through GD20] with no maternal deaths observed. At 25 mg/kg/day treatment statistically significant reductions occurred in feed consumption (−9%), maternal body weight (−2.4%) and adjusted maternal weight gain (−68%). There were no adverse gestational findings. Maternal thymus weight was significantly reduced in rats at 25 mg/kg in the absence of changes in hormone levels of T3, T4 or TSH. There were no effects on fetal growth, no dose-dependent pattern of external, visceral, or skeletal malformations and no toxicologically relevant increase in anatomical variations at any dose group. Based on the obtained experimental data it is concluded that dimethyltin bis(2-ethylhexyl thioglycolate) forms dimethyltin chloro-(2-ethylhexyl thioglycolate), not dimethyltin dichloride, in the stomach environment at pH 1.2, and dimethyltin bis(2-ethylhexyl thioglycolate) was not teratogenic nor fetotoxic in rats. The maternal NOAEL was 10 mg/kg/day, and the developmental NOAEL was 25 mg/kg/day, the high dose. The maternal LOAEL was 25 mg/kg/day based on decreased food consumption, lower adjusted mean body weight gain and reduced maternal thymus weight.

Published
2023
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