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4. The role of a molecular informatics platform to support next generation risk assessment

Author

Yang, Chihae, Rathman, James F, Bienfait, Bruno, Burbank, Matthew, Detroyer, Ann, Enoch, Steven J., Firman, James W., Gutsell, Steve, Hewitt, Nicola J., Hobocienski, Bryan, Kenna, Gerry, Madden, Judith C., Magdziarz, Tomasz, Marusczyk, Jörg, Mostrag-Szlichtyng, Aleksandra, Krueger, Christopher-Tilman, Lester, Cathy, Mahoney, Catherine, Najjar, Abdulkarim, Ouedraogo, Gladys, Przybylak, Katarzyna R., Ribeiro, J. Vinicius, and Cronin, Mark T.D.

Published
2023
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14. Construction of an In Silico Structural Profiling Tool Facilitating Mechanistically Grounded Classification of Aquatic Toxicants

Author

Firman, James W., primary, Ebbrell, David J., additional, Bauer, Franklin J., additional, Sapounidou, Maria, additional, Hodges, Geoff, additional, Campos, Bruno, additional, Roberts, Jayne, additional, Gutsell, Steve, additional, Thomas, Paul C., additional, Bonnell, Mark, additional, and Cronin, Mark T. D., additional

Published
2022
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16. sj-pdf-1-atl-10.1177_02611929211060264 ��� Supplemental Material for A Systematic Review of Published Physiologically based Kinetic Models and an Assessment of their Chemical Space Coverage

Author

Thompson, Courtney V., Firman, James W., Goldsmith, Michael R., Grulke, Christopher M., Tan, Yu-Mei, Paini, Alicia, Penson, Peter E., Sayre, Risa R, Webb, Steven, and Madden, Judith C.

Subjects
FOS: Clinical medicine, 111599 Pharmacology and Pharmaceutical Sciences not elsewhere classified
Abstract

Supplemental Material, sj-pdf-1-atl-10.1177_02611929211060264 for A Systematic Review of Published Physiologically based Kinetic Models and an Assessment of their Chemical Space Coverage by Courtney V Thompson, James W Firman, Michael R Goldsmith, Christopher M Grulke, Yu-Mei Tan, Alicia Paini, Peter E Penson, Risa R Sayre, Steven Webb and Judith C Madden in Alternatives to Laboratory Animals

Published
2021
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17. sj-pdf-2-atl-10.1177_02611929211060264 ��� Supplemental Material for A Systematic Review of Published Physiologically based Kinetic Models and an Assessment of their Chemical Space Coverage

Author

Thompson, Courtney V., Firman, James W., Goldsmith, Michael R., Grulke, Christopher M., Tan, Yu-Mei, Paini, Alicia, Penson, Peter E., Sayre, Risa R, Webb, Steven, and Madden, Judith C.

Subjects
FOS: Clinical medicine, 111599 Pharmacology and Pharmaceutical Sciences not elsewhere classified
Abstract

Supplemental Material, sj-pdf-2-atl-10.1177_02611929211060264 for A Systematic Review of Published Physiologically based Kinetic Models and an Assessment of their Chemical Space Coverage by Courtney V Thompson, James W Firman, Michael R Goldsmith, Christopher M Grulke, Yu-Mei Tan, Alicia Paini, Peter E Penson, Risa R Sayre, Steven Webb and Judith C Madden in Alternatives to Laboratory Animals

Published
2021
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18. Exploring the Potential of ToxCast Data in Supporting Read-Across for Evaluation of Food Chemical Safety

Author

Firman, James W., Punt, Ans, Cronin, Mark T.D., Boobis, Alan R., Wilks, Martin F., Hepburn, Paul A., Thiel, Anette, Fussell, Karma C., Firman, James W., Punt, Ans, Cronin, Mark T.D., Boobis, Alan R., Wilks, Martin F., Hepburn, Paul A., Thiel, Anette, and Fussell, Karma C.

Abstract

The intention of this study was to determine the utility of high-throughput screening (HTS) data, as exemplified by ToxCast and Tox21, for application in toxicological read-across in food-relevant chemicals. Key questions were addressed on the extent to which the HTS data could provide information enabling (1) the elucidation of underlying bioactivities associated with apical toxicological outcomes, (2) the closing of existing toxicological data gaps, and (3) the definition of the boundaries of chemical space across which bioactivity could reliably be extrapolated. Results revealed that many biological targets apparently activated within the chemical groupings lack, at this time, validated toxicity pathway associations. Therefore, as means of providing proof-of-principle, a comparatively well-characterized end point - estrogenicity - was selected for evaluation. This was facilitated through the preparation of two exploratory case studies, focusing upon groupings of paraben-gallates and pyranone-type compounds (notably flavonoids). Within both, the HTS data were seen to reflect estrogenic potencies in a manner which broadly corresponded to established structure-activity group relationships, with parabens and flavonoids displaying greater estrogen receptor affinity than benzoate esters and alternative pyranone-containing molecules, respectively. As such, utility in the identification of out-of-domain compounds was demonstrated, indicating potential for application in addressing point (3) as detailed above.

Published
2021

19. In Silico Identification of Chemicals Capable of Binding to the Ecdysone Receptor

Author

Mellor, Claire, Tollefsen, Knut Erik, LaLone, Carlie, Cronin, Mark T.D., Firman, James W., Mellor, Claire, Tollefsen, Knut Erik, LaLone, Carlie, Cronin, Mark T.D., and Firman, James W.

Abstract

The process of molting, known alternatively as ecdysis, is a feature integral in the life cycles of species across the arthropod phylum. Regulation occurs as a function of the interaction of ecdysteroid hormones with the arthropod nuclear ecdysone receptor—a process preceding the triggering of a series of downstream events constituting an endocrine signaling pathway highly conserved throughout environmentally prevalent insect, crustacean, and myriapod organisms. Inappropriate ecdysone receptor binding and activation forms the essential molecular initiating event within possible adverse outcome pathways relating abnormal molting to mortality in arthropods. Definition of the characteristics of chemicals liable to stimulate such activity has the potential to be of great utility in mitigation of hazards posed toward vulnerable species. Thus the aim of the present study was to develop a series of rule‐sets, derived from the key structural and physicochemical features associated with identified ecdysone receptor ligands, enabling construction of Konstanz Information Miner (KNIME) workflows permitting the flagging of compounds predisposed to binding at the site. Data describing the activities of 555 distinct chemicals were recovered from a variety of assays across 10 insect species, allowing for formulation of KNIME screens for potential binding activity at the molecular initiating event and adverse outcome level of biological organization. Environ Toxicol Chem 2020;39:1438–1450. © 2020 The Authors. Environmental Toxicology and Chemistry published by Wiley Periodicals LLC on behalf of SETAC.

Published
2020

24. In vitro Liver Zonation of Primary Rat Hepatocytes

Author

Tomlinson, Lauren, Hyndman, Lauren, Firman, James W., Bentley, Robert, Kyffin, Jonathan A., Webb, Steven D., McGinty, Sean, and Sharma, Parveen

Subjects
RM, flow system, in vitro model, mathematical modeling, Bioengineering and Biotechnology, liver zonation, drug-induced liver injury, Original Research
Abstract

The ability of the liver to simultaneously carry out multiple functions is dependent on the metabolic heterogeneity of hepatocytes spatially located within a liver lobule spanning from the portal triad to the central vein. This complex zonal architecture of the liver, however, makes accurate in vitro modeling a challenge and often standard culture systems assume a homogenous model which may lead to inaccurate translatability of results. Here, we use a combination of mathematical modeling and experimental data to demonstrate a readily constructible in vitro flow system capable of liver zonation in primary rat hepatocytes. We show the differential expression of zonation markers, enhanced functionality when compared to standard static cultures and zone-specific metabolism and cell damage in the presence of paracetamol, a known zone-specific toxin. This type of advanced system provides a more in-depth and essential understanding of liver physiology and pathophysiology as well as the accurate evaluation of pharmacological interventions at a zone-specific level.

Published
2019

30. A Robust, Mechanistically Based In SilicoStructural Profiler for Hepatic Cholestasis

Author

Firman, James W., Pestana, Cynthia B., Rathman, James F., Vinken, Mathieu, Yang, Chihae, and Cronin, Mark T. D.

Abstract

Owing to the primary role which it holds within metabolism of xenobiotics, the liver stands at heightened risk of exposure to, and injury from, potentially hazardous substances. A principal manifestation of liver dysfunction is cholestasis–the impairment of physiological bile circulation from its point of origin within the organ to the site of action in the small intestine. The capacity for early identification of compounds liable to exert cholestatic effects is of particular utility within the field of pharmaceutical development, where contribution toward candidate attrition is great. Shortcomings associated with the present in vitromethodologies forecasting cholestasis render their predictivity questionable, permitting scope for the adoption of computational toxicology techniques. As such, the intention of this study has been to construct an in silicoprofiler, founded upon clinical data, highlighting structural motifs most reliably associated with the end point. Drawing upon a list of >1500 small molecular drugs, compiled and annotated by Kotsampasakou, E. and Ecker, G. F. (J. Chem. Inf. Model.2017, 57, 608–615), we have formulated a series of 15 structural alerts. These describe fragments intrinsic within distinct pharmaceutical classes including psychoactive tricyclics, β-lactam antimicrobials, and estrogenic/androgenic steroids. Description of the coverage and selectivity of each are provided, alongside consideration of the underlying reactive mechanisms and relevant structure–activity concerns. Provision of mechanistic anchoring ensures that potential exists for framing within the adverse outcome pathway paradigm–the chemistry conveyed through the alert, in particular enabling rationalization at the level of the molecular initiating event.

Published
2021
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31. A critical review of adverse effects to the kidney: mechanisms, data sources, and in silicotools to assist prediction

Author

Pletz, Julia, Enoch, Steven J., Jais, Diviya M., Mellor, Claire L., Pawar, Gopal, Firman, James W., Madden, Judith C., Webb, Steven D., Tagliati, Carlos A., and Cronin, Mark T. D.

Abstract

ABSTRACTIntroduction: The kidney is a major target for toxicity elicited by pharmaceuticals and environmental pollutants. Standard testing which often does not investigate underlying mechanisms has proven not to be an adequate hazard assessment approach. As such, there is an opportunity for the application of computational approaches that utilize multiscale data based on the Adverse Outcome Pathway (AOP) paradigm, coupled with an understanding of the chemistry underpinning the molecular initiating event (MIE) to provide a deep understanding of how structural fragments of molecules relate to specific mechanisms of nephrotoxicity.Aims covered: The aim of this investigation was to review the current scientific landscape related to computational methods, including mechanistic data, AOPs, publicly available knowledge bases and current in silicomodels, for the assessment of pharmaceuticals and other chemicals with regard to their potential to elicit nephrotoxicity. A list of over 250 nephrotoxicants enriched with, where possible, mechanistic and AOP-derived understanding was compiled.Expert opinion: Whilst little mechanistic evidence has been translated into AOPs, this review identified a number of data sources of in vitro, in vivo,and human data that may assist in the development of in silicomodels which in turn may shed light on the interrelationships between nephrotoxicity mechanisms.

Published
2018
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33. Exploring the Potential of ToxCast Data in Supporting Read-Across for Evaluation of Food Chemical Safety.

Author

Firman JW, Punt A, Cronin MTD, Boobis AR, Wilks MF, Hepburn PA, Thiel A, and Fussell KC

Subjects
Humans, Molecular Structure, Risk Assessment, Structure-Activity Relationship, Flavonoids adverse effects, High-Throughput Screening Assays, Pyrans adverse effects, Toxicity Tests
Abstract

The intention of this study was to determine the utility of high-throughput screening (HTS) data, as exemplified by ToxCast and Tox21, for application in toxicological read-across in food-relevant chemicals. Key questions were addressed on the extent to which the HTS data could provide information enabling (1) the elucidation of underlying bioactivities associated with apical toxicological outcomes, (2) the closing of existing toxicological data gaps, and (3) the definition of the boundaries of chemical space across which bioactivity could reliably be extrapolated. Results revealed that many biological targets apparently activated within the chemical groupings lack, at this time, validated toxicity pathway associations. Therefore, as means of providing proof-of-principle, a comparatively well-characterized end point-estrogenicity-was selected for evaluation. This was facilitated through the preparation of two exploratory case studies, focusing upon groupings of paraben-gallates and pyranone-type compounds (notably flavonoids). Within both, the HTS data were seen to reflect estrogenic potencies in a manner which broadly corresponded to established structure-activity group relationships, with parabens and flavonoids displaying greater estrogen receptor affinity than benzoate esters and alternative pyranone-containing molecules, respectively. As such, utility in the identification of out-of-domain compounds was demonstrated, indicating potential for application in addressing point (3) as detailed above.

Published
2021
Full Text
View/download PDF

34. In vitro Liver Zonation of Primary Rat Hepatocytes.

Author

Tomlinson L, Hyndman L, Firman JW, Bentley R, Kyffin JA, Webb SD, McGinty S, and Sharma P

Abstract

The ability of the liver to simultaneously carry out multiple functions is dependent on the metabolic heterogeneity of hepatocytes spatially located within a liver lobule spanning from the portal triad to the central vein. This complex zonal architecture of the liver, however, makes accurate in vitro modeling a challenge and often standard culture systems assume a homogenous model which may lead to inaccurate translatability of results. Here, we use a combination of mathematical modeling and experimental data to demonstrate a readily constructible in vitro flow system capable of liver zonation in primary rat hepatocytes. We show the differential expression of zonation markers, enhanced functionality when compared to standard static cultures and zone-specific metabolism and cell damage in the presence of paracetamol, a known zone-specific toxin. This type of advanced system provides a more in-depth and essential understanding of liver physiology and pathophysiology as well as the accurate evaluation of pharmacological interventions at a zone-specific level.

Published
2019
Full Text
View/download PDF

35. A critical review of adverse effects to the kidney: mechanisms, data sources, and in silico tools to assist prediction.

Author

Pletz J, Enoch SJ, Jais DM, Mellor CL, Pawar G, Firman JW, Madden JC, Webb SD, Tagliati CA, and Cronin MTD

Subjects
Animals, Computer Simulation, Environmental Pollutants administration & dosage, Humans, Information Storage and Retrieval, Kidney pathology, Risk Assessment methods, Drug-Related Side Effects and Adverse Reactions epidemiology, Environmental Pollutants adverse effects, Kidney drug effects
Abstract

Introduction: The kidney is a major target for toxicity elicited by pharmaceuticals and environmental pollutants. Standard testing which often does not investigate underlying mechanisms has proven not to be an adequate hazard assessment approach. As such, there is an opportunity for the application of computational approaches that utilize multiscale data based on the Adverse Outcome Pathway (AOP) paradigm, coupled with an understanding of the chemistry underpinning the molecular initiating event (MIE) to provide a deep understanding of how structural fragments of molecules relate to specific mechanisms of nephrotoxicity. Aims covered: The aim of this investigation was to review the current scientific landscape related to computational methods, including mechanistic data, AOPs, publicly available knowledge bases and current in silico models, for the assessment of pharmaceuticals and other chemicals with regard to their potential to elicit nephrotoxicity. A list of over 250 nephrotoxicants enriched with, where possible, mechanistic and AOP-derived understanding was compiled. Expert opinion: Whilst little mechanistic evidence has been translated into AOPs, this review identified a number of data sources of in vitro, in vivo, and human data that may assist in the development of in silico models which in turn may shed light on the interrelationships between nephrotoxicity mechanisms.

Published
2018
Full Text
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