CoMPARA: Collaborative Modeling Project for Androgen Receptor Activity

Endocrine disrupting chemicals (EDCs) are xenobiotics that mimic the interaction of natural hormones and alter synthesis, transport, or metabolic pathways. The prospect of EDCs causing adverse health effects in humans and wildlife has led to the development of scientific and regulatory approaches fo...

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Published in:Environmental health perspectives 2020-02, Vol.128 (2), p.27002
Main Authors: Mansouri, Kamel, Kleinstreuer, Nicole, Abdelaziz, Ahmed M, Alberga, Domenico, Alves, Vinicius M, Andersson, Patrik L, Andrade, Carolina H, Bai, Fang, Balabin, Ilya, Ballabio, Davide, Benfenati, Emilio, Bhhatarai, Barun, Boyer, Scott, Chen, Jingwen, Consonni, Viviana, Farag, Sherif, Fourches, Denis, García-Sosa, Alfonso T, Gramatica, Paola, Grisoni, Francesca, Grulke, Chris M, Hong, Huixiao, Horvath, Dragos, Hu, Xin, Huang, Ruili, Jeliazkova, Nina, Li, Jiazhong, Li, Xuehua, Liu, Huanxiang, Manganelli, Serena, Mangiatordi, Giuseppe F, Maran, Uko, Marcou, Gilles, Martin, Todd, Muratov, Eugene, Nguyen, Dac-Trung, Nicolotti, Orazio, Nikolov, Nikolai G, Norinder, Ulf, Papa, Ester, Petitjean, Michel, Piir, Geven, Pogodin, Pavel, Poroikov, Vladimir, Qiao, Xianliang, Richard, Ann M, Roncaglioni, Alessandra, Ruiz, Patricia, Rupakheti, Chetan, Sakkiah, Sugunadevi, Sangion, Alessandro, Schramm, Karl-Werner, Selvaraj, Chandrabose, Shah, Imran, Sild, Sulev, Sun, Lixia, Taboureau, Olivier, Tang, Yun, Tetko, Igor V, Todeschini, Roberto, Tong, Weida, Trisciuzzi, Daniela, Tropsha, Alexander, Van Den Driessche, George, Varnek, Alexandre, Wang, Zhongyu, Wedebye, Eva B, Williams, Antony J, Xie, Hongbin, Zakharov, Alexey V, Zheng, Ziye, Judson, Richard S
Format: Article
Language:English
Subjects:
Analysis
Androgen receptors
Androgens
Biocompatibility
Biological activity
Chemical activity
Chemical Sciences
Chemicals
Cheminformatics
Collaboration
Computer applications
Computer Simulation
Consortia
Cytotoxicity
Dashboards
Databases, Factual
Endocrine Disruptors
Environmental protection
Estrogens
Evaluation
Health
Health aspects
Health risks
High-throughput screening
High-Throughput Screening Assays
Hormones
Humans
Metabolic pathways
Metabolites
Model accuracy
Open source software
Phenols (Class of compounds)
Prediction models
Predictions
Protein expression
Receptors
Receptors, Androgen
Scientists
Screening
Toxicity
Toxicology
United States
United States Environmental Protection Agency
Wildlife
Xenobiotics
Xenoestrogens
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Summary:Endocrine disrupting chemicals (EDCs) are xenobiotics that mimic the interaction of natural hormones and alter synthesis, transport, or metabolic pathways. The prospect of EDCs causing adverse health effects in humans and wildlife has led to the development of scientific and regulatory approaches for evaluating bioactivity. This need is being addressed using high-throughput screening (HTS) approaches and computational modeling. In support of the Endocrine Disruptor Screening Program, the U.S. Environmental Protection Agency (EPA) led two worldwide consortiums to virtually screen chemicals for their potential estrogenic and androgenic activities. Here, we describe the Collaborative Modeling Project for Androgen Receptor Activity (CoMPARA) efforts, which follows the steps of the Collaborative Estrogen Receptor Activity Prediction Project (CERAPP). The CoMPARA list of screened chemicals built on CERAPP's list of 32,464 chemicals to include additional chemicals of interest, as well as simulated ToxCast™ metabolites, totaling 55,450 chemical structures. Computational toxicology scientists from 25 international groups contributed 91 predictive models for binding, agonist, and antagonist activity predictions. Models were underpinned by a common training set of 1,746 chemicals compiled from a combined data set of 11 ToxCast™/Tox21 HTS assays. The resulting models were evaluated using curated literature data extracted from different sources. To overcome the limitations of single-model approaches, CoMPARA predictions were combined into consensus models that provided averaged predictive accuracy of approximately 80% for the evaluation set. The strengths and limitations of the consensus predictions were discussed with example chemicals; then, the models were implemented into the free and open-source OPERA application to enable screening of new chemicals with a defined applicability domain and accuracy assessment. This implementation was used to screen the entire EPA DSSTox database of chemicals, and their predicted AR activities have been made available on the EPA CompTox Chemicals dashboard and National Toxicology Program's Integrated Chemical Environment. https://doi.org/10.1289/EHP5580.
ISSN:0091-6765
1552-9924
1552-9924
DOI:10.1289/EHP5580