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141 results on '"Thomas, A. S."'

1. Signature analysis of high-throughput transcriptomics screening data for mechanistic inference and chemical grouping.

Author

Harrill, Joshua A, Everett, Logan J, Haggard, Derik E, Word, Laura J, Bundy, Joseph L, Chambers, Bryant, Harris, Felix, Willis, Clinton, Thomas, Russell S, Shah, Imran, and Judson, Richard

Subjects
RETINOIC acid receptors, CHEMICAL testing, CHEMICAL agonists, GLUCOCORTICOID receptors, GENE expression profiling
Abstract

High-throughput transcriptomics (HTTr) uses gene expression profiling to characterize the biological activity of chemicals in in vitro cell-based test systems. As an extension of a previous study testing 44 chemicals, HTTr was used to screen an additional 1,751 unique chemicals from the EPA's ToxCast collection in MCF7 cells using 8 concentrations and an exposure duration of 6 h. We hypothesized that concentration-response modeling of signature scores could be used to identify putative molecular targets and cluster chemicals with similar bioactivity. Clustering and enrichment analyses were conducted based on signature catalog annotations and ToxPrint chemotypes to facilitate molecular target prediction and grouping of chemicals with similar bioactivity profiles. Enrichment analysis based on signature catalog annotation identified known mechanisms of action (MeOAs) associated with well-studied chemicals and generated putative MeOAs for other active chemicals. Chemicals with predicted MeOAs included those targeting estrogen receptor (ER), glucocorticoid receptor (GR), retinoic acid receptor (RAR), the NRF2/KEAP/ARE pathway, AP-1 activation, and others. Using reference chemicals for ER modulation, the study demonstrated that HTTr in MCF7 cells was able to stratify chemicals in terms of agonist potency, distinguish ER agonists from antagonists, and cluster chemicals with similar activities as predicted by the ToxCast ER Pathway model. Uniform manifold approximation and projection (UMAP) embedding of signature-level results identified novel ER modulators with no ToxCast ER Pathway model predictions. Finally, UMAP combined with ToxPrint chemotype enrichment was used to explore the biological activity of structurally related chemicals. The study demonstrates that HTTr can be used to inform chemical risk assessment by determining in vitro points of departure, predicting chemicals' MeOA and grouping chemicals with similar bioactivity profiles. [ABSTRACT FROM AUTHOR]

Published
2024
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2. Technical evaluation and standardization of the human thyroid microtissue assay.

Author

Foley, Briana, Hopperstad, Kristen, Gamble, John, Lynn, Scott G, Thomas, Russell S, and Deisenroth, Chad

Subjects
MICROPHYSIOLOGICAL systems, STANDARDIZATION, HUMAN biology, ANIMAL experimentation, PERFORMANCE standards, THYROID gland
Abstract

The success and sustainability of U.S. EPA efforts to reduce, refine, and replace in vivo animal testing depends on the ability to translate toxicokinetic and toxicodynamic data from in vitro and in silico new approach methods (NAMs) to human-relevant exposures and health outcomes. Organotypic culture models employing primary human cells enable consideration of human health effects and inter-individual variability but present significant challenges for test method standardization, transferability, and validation. Increasing confidence in the information provided by these in vitro NAMs requires setting appropriate performance standards and benchmarks, defined by the context of use, to consider human biology and mechanistic relevance without animal data. The human thyroid microtissue (hTMT) assay utilizes primary human thyrocytes to reproduce structural and functional features of the thyroid gland that enable testing for potential thyroid-disrupting chemicals. As a variable-donor assay platform, conventional principles for assay performance standardization need to be balanced with the ability to predict a range of human responses. The objectives of this study were to (1) define the technical parameters for optimal donor procurement, primary thyrocyte qualification, and performance in the hTMT assay, and (2) set benchmark ranges for reference chemical responses. Thyrocytes derived from a cohort of 32 demographically diverse euthyroid donors were characterized across a battery of endpoints to evaluate morphological and functional variability. Reference chemical responses were profiled to evaluate the range and chemical-specific variability of donor-dependent effects within the cohort. The data-informed minimum acceptance criteria for donor qualification and set benchmark parameters for method transfer proficiency testing and validation of assay performance. [ABSTRACT FROM AUTHOR]

Published
2024
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5. Toxicokinetic Triage for Environmental Chemicals

Author

Wambaugh, John F., Wetmore, Barbara A., Pearce, Robert, Strope, Cory, Goldsmith, Rocky, Sluka, James P., Sedykh, Alexander, Tropsha, Alex, Bosgra, Sieto, Shah, Imran, Judson, Richard, Thomas, Russell S., and Woodrow Setzer, R.

Published
2015
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10. Incorporating New Technologies Into Toxicity Testing and Risk Assessment: Moving From 21st Century Vision to a Data-Driven Framework

Author

Thomas, Russell S., Philbert, Martin A., Auerbach, Scott S., Wetmore, Barbara A., Devito, Michael J., Cote, Ila, Rowlands, J. Craig, Whelan, Maurice P., Hays, Sean M., Andersen, Melvin E., Meek, M. E. (Bette), Reiter, Lawrence W., Lambert, Jason C., Clewell, Harvey J., III, Stephens, Martin L., Zhao, Q. Jay, Wesselkamper, Scott C., Flowers, Lynn, Carney, Edward W., Pastoor, Timothy P., Petersen, Dan D., Yauk, Carole L., and Nong, Andy

Published
2013
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22. Corrigendum to: “Profiling the ToxCast Library With a Pluripotent Human (H9) Stem Cell Line-Based Biomarker Assay for Developmental Toxicity”

Author

Zurlinden, Todd J, primary, Saili, Katerine S, additional, Rush, Nathaniel, additional, Kothiya, Parth, additional, Judson, Richard S, additional, Houck, Keith A, additional, Hunter, E Sidney, additional, Baker, Nancy C, additional, Palmer, Jessica A, additional, Thomas, Russell S, additional, and Knudsen, Thomas B, additional

Published
2020
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23. Profiling the ToxCast Library With a Pluripotent Human (H9) Stem Cell Line-Based Biomarker Assay for Developmental Toxicity

Author

Zurlinden, Todd J, primary, Saili, Katerine S, additional, Rush, Nathaniel, additional, Kothiya, Parth, additional, Judson, Richard S, additional, Houck, Keith A, additional, Hunter, E Sidney, additional, Baker, Nancy C, additional, Palmer, Jessica A, additional, Thomas, Russell S, additional, and Knudsen, Thomas B, additional

Published
2020
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36. Assessing Toxicokinetic Uncertainty and Variability in Risk Prioritization

Author

Wambaugh, John F, primary, Wetmore, Barbara A, additional, Ring, Caroline L, additional, Nicolas, Chantel I, additional, Pearce, Robert G, additional, Honda, Gregory S, additional, Dinallo, Roger, additional, Angus, Derek, additional, Gilbert, Jon, additional, Sierra, Teresa, additional, Badrinarayanan, Akshay, additional, Snodgrass, Bradley, additional, Brockman, Adam, additional, Strock, Chris, additional, Setzer, R Woodrow, additional, and Thomas, Russell S, additional

Published
2019
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37. Utility of In Vitro Bioactivity as a Lower Bound Estimate of In Vivo Adverse Effect Levels and in Risk-Based Prioritization

Author

Paul Friedman, Katie, primary, Gagne, Matthew, additional, Loo, Lit-Hsin, additional, Karamertzanis, Panagiotis, additional, Netzeva, Tatiana, additional, Sobanski, Tomasz, additional, Franzosa, Jill A, additional, Richard, Ann M, additional, Lougee, Ryan R, additional, Gissi, Andrea, additional, Lee, Jia-Ying Joey, additional, Angrish, Michelle, additional, Dorne, Jean Lou, additional, Foster, Stiven, additional, Raffaele, Kathleen, additional, Bahadori, Tina, additional, Gwinn, Maureen R, additional, Lambert, Jason, additional, Whelan, Maurice, additional, Rasenberg, Mike, additional, Barton-Maclaren, Tara, additional, and Thomas, Russell S, additional

Published
2019
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38. The Next Generation Blueprint of Computational Toxicology at the U.S. Environmental Protection Agency

Author

Thomas, Russell S, primary, Bahadori, Tina, additional, Buckley, Timothy J, additional, Cowden, John, additional, Deisenroth, Chad, additional, Dionisio, Kathie L, additional, Frithsen, Jeffrey B, additional, Grulke, Christopher M, additional, Gwinn, Maureen R, additional, Harrill, Joshua A, additional, Higuchi, Mark, additional, Houck, Keith A, additional, Hughes, Michael F, additional, Hunter, E Sidney, additional, Isaacs, Kristin K, additional, Judson, Richard S, additional, Knudsen, Thomas B, additional, Lambert, Jason C, additional, Linnenbrink, Monica, additional, Martin, Todd M, additional, Newton, Seth R, additional, Padilla, Stephanie, additional, Patlewicz, Grace, additional, Paul-Friedman, Katie, additional, Phillips, Katherine A, additional, Richard, Ann M, additional, Sams, Reeder, additional, Shafer, Timothy J, additional, Setzer, R Woodrow, additional, Shah, Imran, additional, Simmons, Jane E, additional, Simmons, Steven O, additional, Singh, Amar, additional, Sobus, Jon R, additional, Strynar, Mark, additional, Swank, Adam, additional, Tornero-Valez, Rogelio, additional, Ulrich, Elin M, additional, Villeneuve, Daniel L, additional, Wambaugh, John F, additional, Wetmore, Barbara A, additional, and Williams, Antony J, additional

Published
2019
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39. Development of an In Vitro Human Thyroid Microtissue Model for Chemical Screening.

Author

Deisenroth, Chad, Soldatow, Valerie Y, Ford, Jermaine, Stewart, Wendy, Brinkman, Cassandra, LeCluyse, Edward L, MacMillan, Denise K, and Thomas, Russell S

Subjects
CHEMICAL models, THYROID hormones, HORMONE synthesis, THYROID gland, ENDOCRINE disruptors, EPITHELIAL cells
Abstract

Thyroid hormones (TH) are essential for regulating a number of diverse physiological processes required for normal growth, development, and metabolism. The US EPA Endocrine Disruptor Screening Program (EDSP) has identified several molecular thyroid targets relevant to hormone synthesis dynamics that have been adapted to high-throughput screening (HTS) assays to rapidly evaluate the ToxCast/Tox21 chemical inventories for potential thyroid disrupting chemicals (TDCs). The uncertainty surrounding the specificity of active chemicals identified in these screens and the relevance to phenotypic effects on in vivo human TH synthesis are notable data gaps for hazard identification of TDCs. The objective of this study was to develop a medium-throughput organotypic screening assay comprised of reconstructed human thyroid microtissues to quantitatively evaluate the disruptive effects of chemicals on TH production and secretion. Primary human thyroid cells procured from qualified euthyroid donors were analyzed for retention of NK2 homeobox 1 (NKX2-1), Keratin 7 (KRT7), and Thyroglobulin (TG) protein expression by high-content image analysis to verify enrichment of follicular epithelial cells. A direct comparison of 2-dimensional (2D) and 3-dimensional (3D) 96-well culture formats was employed to characterize the morphology, differential gene expression, TG production, and TH synthesis over the course of 20 days. The results indicate that modeling human thyroid cells in the 3D format was sufficient to restore TH synthesis not observed in the 2D culture format. Inhibition of TH synthesis in an optimized 3D culture format was demonstrated with reference chemicals for key molecular targets within the thyroid gland. Implementation of the assay may prove useful for interpreting phenotypic effects of candidate TDCs identified by HTS efforts currently underway in the EDSP. [ABSTRACT FROM AUTHOR]

Published
2020
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40. Evaluating In Vitro-In Vivo Extrapolation of Toxicokinetics

Author

Wambaugh, John F, primary, Hughes, Michael F, additional, Ring, Caroline L, additional, MacMillan, Denise K, additional, Ford, Jermaine, additional, Fennell, Timothy R, additional, Black, Sherry R, additional, Snyder, Rodney W, additional, Sipes, Nisha S, additional, Wetmore, Barbara A, additional, Westerhout, Joost, additional, Setzer, R Woodrow, additional, Pearce, Robert G, additional, Simmons, Jane Ellen, additional, and Thomas, Russell S, additional

Published
2018
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42. Next Generation Blueprint of Computational Toxicology at the U.S. Environmental Protection Agency.

Author

Thomas, Russell S, Bahadori, Tina, Buckley, Timothy J, Cowden, John, Deisenroth, Chad, Dionisio, Kathie L, Frithsen, Jeffrey B, Grulke, Christopher M, Gwinn, Maureen R, Harrill, Joshua A, Higuchi, Mark, Houck, Keith A, Hughes, Michael F, Hunter, E Sidney, Isaacs, Kristin K, Judson, Richard S, Knudsen, Thomas B, Lambert, Jason C, Linnenbrink, Monica, and Martin, Todd M

Subjects
*ENVIRONMENTAL protection, *ENVIRONMENTAL agencies, *TOXICOLOGY, *TOXICITY testing, *MEDICAL software
Abstract

The U.S. Environmental Protection Agency (EPA) is faced with the challenge of efficiently and credibly evaluating chemical safety often with limited or no available toxicity data. The expanding number of chemicals found in commerce and the environment, coupled with time and resource requirements for traditional toxicity testing and exposure characterization, continue to underscore the need for new approaches. In 2005, EPA charted a new course to address this challenge by embracing computational toxicology (CompTox) and investing in the technologies and capabilities to push the field forward. The return on this investment has been demonstrated through results and applications across a range of human and environmental health problems, as well as initial application to regulatory decision-making within programs such as the EPA's Endocrine Disruptor Screening Program. The CompTox initiative at EPA is more than a decade old. This manuscript presents a blueprint to guide the strategic and operational direction over the next 5 years. The primary goal is to obtain broader acceptance of the CompTox approaches for application to higher tier regulatory decisions, such as chemical assessments. To achieve this goal, the blueprint expands and refines the use of high-throughput and computational modeling approaches to transform the components in chemical risk assessment, while systematically addressing key challenges that have hindered progress. In addition, the blueprint outlines additional investments in cross-cutting efforts to characterize uncertainty and variability, develop software and information technology tools, provide outreach and training, and establish scientific confidence for application to different public health and environmental regulatory decisions. [ABSTRACT FROM AUTHOR]

Published
2019
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43. Analysis of the Effects of Cell Stress and Cytotoxicity onIn Vitro Assay Activity Across a Diverse Chemical and Assay Space

Author

Judson, Richard, primary, Houck, Keith, primary, Martin, Matt, primary, Richard, Ann M., primary, Knudsen, Thomas B., primary, Shah, Imran, primary, Little, Stephen, primary, Wambaugh, John, primary, Setzer, R. Woodrow, primary, Kothiya, Parth, primary, Phuong, Jimmy, primary, Filer, Dayne, primary, Smith, Doris, primary, Reif, David, primary, Rotroff, Daniel, primary, Kleinstreuer, Nicole, primary, Sipes, Nisha, primary, Xia, Menghang, primary, Huang, Ruili, primary, Crofton, Kevin, primary, and Thomas, Russell S., primary

Published
2016
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44. Editor's Highlight: Analysis of the Effects of Cell Stress and Cytotoxicity onIn VitroAssay Activity Across a Diverse Chemical and Assay Space

Author

Judson, Richard, primary, Houck, Keith, additional, Martin, Matt, additional, Richard, Ann M., additional, Knudsen, Thomas B., additional, Shah, Imran, additional, Little, Stephen, additional, Wambaugh, John, additional, Woodrow Setzer, R., additional, Kothya, Parth, additional, Phuong, Jimmy, additional, Filer, Dayne, additional, Smith, Doris, additional, Reif, David, additional, Rotroff, Daniel, additional, Kleinstreuer, Nicole, additional, Sipes, Nisha, additional, Xia, Menghang, additional, Huang, Ruili, additional, Crofton, Kevin, additional, and Thomas, Russell S., additional

Published
2016
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45. Integrated Model of Chemical Perturbations of a Biological Pathway Using 18In VitroHigh-Throughput Screening Assays for the Estrogen Receptor

Author

Judson, Richard S., primary, Magpantay, Felicia Maria, additional, Chickarmane, Vijay, additional, Haskell, Cymra, additional, Tania, Nessy, additional, Taylor, Jean, additional, Xia, Menghang, additional, Huang, Ruili, additional, Rotroff, Daniel M., additional, Filer, Dayne L., additional, Houck, Keith A., additional, Martin, Matthew T., additional, Sipes, Nisha, additional, Richard, Ann M., additional, Mansouri, Kamel, additional, Setzer, R. Woodrow, additional, Knudsen, Thomas B., additional, Crofton, Kevin M., additional, and Thomas, Russell S., additional

Published
2015
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46. Incorporating High-Throughput Exposure Predictions With Dosimetry-AdjustedIn VitroBioactivity to Inform Chemical Toxicity Testing

Author

Wetmore, Barbara A., primary, Wambaugh, John F., additional, Allen, Brittany, additional, Ferguson, Stephen S., additional, Sochaski, Mark A., additional, Setzer, R. Woodrow, additional, Houck, Keith A., additional, Strope, Cory L., additional, Cantwell, Katherine, additional, Judson, Richard S., additional, LeCluyse, Edward, additional, Clewell, Harvey J., additional, Thomas, Russell S., additional, and Andersen, Melvin E., additional

Published
2015
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49. Response to "Accurate Risk-Based Chemical Screening * Relies on Robust Exposure Estimates"

Author

Wetmore, B. A., primary, Wambaugh, J. F., additional, Ferguson, S. S., additional, Sochaski, M. A., additional, Rotroff, D. M., additional, Freeman, K., additional, Clewell, H. J., additional, Dix, D. J., additional, Andersen, M. E., additional, Houck, K. A., additional, Allen, B., additional, Judson, R. S., additional, Singh, R., additional, Kavlock, R. J., additional, Richard, A. M., additional, and Thomas, R. S., additional

Published
2012
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50. Integration of Dosimetry, Exposure, and High-Throughput Screening Data in Chemical Toxicity Assessment

Author

Wetmore, Barbara A., primary, Wambaugh, John F., additional, Ferguson, Stephen S., additional, Sochaski, Mark A., additional, Rotroff, Daniel M., additional, Freeman, Kimberly, additional, Clewell, Harvey J., additional, Dix, David J., additional, Andersen, Melvin E., additional, Houck, Keith A., additional, Allen, Brittany, additional, Judson, Richard S., additional, Singh, Reetu, additional, Kavlock, Robert J., additional, Richard, Ann M., additional, and Thomas, Russell S., additional

Published
2011
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