CoMPARA: Collaborative Modeling Project for Androgen Receptor Activity

Kamel Mansouri; Nicole Kleinstreuer; Ahmed M. Abdelaziz; Domenico Alberga; Vinicius M. Alves; Patrik L. Andersson; Carolina H. Andrade; Fang Bai; Ilya Balabin; Davide Ballabio; Emilio Benfenati; Barun Bhhatarai; Scott Boyer; Jingwen Chen; Viviana Consonni; Sherif Farag; Denis Fourches; Alfonso T. García-Sosa; Paola Gramatica; Francesca Grisoni; Chris M. Grulke; Huixiao Hong; Dragos Horvath; Xin Hu; Ruili Huang; Nina Jeliazkova; Jiazhong Li; Xuehua Li; Huanxiang Liu; Serena Manganelli; Giuseppe F. Mangiatordi; Uko Maran; Gilles Marcou; Todd Martin; Eugene Muratov; Dac-Trung Nguyen; Orazio Nicolotti; Nikolai G. Nikolov; Ulf Norinder; Ester Papa; Michel Petitjean; Geven Piir; Pavel Pogodin; Vladimir Poroikov; Xianliang Qiao; Ann M Richard; Alessandra Roncaglioni; Patricia Ruiz; Chetan Rupakheti; Sugunadevi Sakkiah; Alessandro Sangion; Karl-Werner Schramm; Chandrabose Selvaraj; Imran Shah; Sulev Sild; Lixia Sun; Olivier Taboureau; Yun Tang; Igor V. Tetko; Roberto Todeschini; Weida Tong; Daniela Trisciuzzi; Alexander Tropsha; George Van Den Driessche; Alexandre Varnek; Zhongyu Wang; Eva B. Wedebye; Antony J. Williams; Hongbin Xie; Alexey V. Zakharov; Ziye Zheng; Richard S. Judson

doi:10.1289/EHP5580

CoMPARA: Collaborative Modeling Project for Androgen Receptor Activity

Kamel Mansouri
, Nicole Kleinstreuer
, Ahmed M. Abdelaziz
, Domenico Alberga
, Vinicius M. Alves
, Patrik L. Andersson
, Carolina H. Andrade
, Fang Bai
, Ilya Balabin
, Davide Ballabio
, Emilio Benfenati
, Barun Bhhatarai
, Scott Boyer
, Jingwen Chen
, Viviana Consonni
, Sherif Farag
, Denis Fourches
, Alfonso T. García-Sosa
, Paola Gramatica
, Francesca Grisoni

Chris M. Grulke, Huixiao Hong, Dragos Horvath, Xin Hu, Ruili Huang, Nina Jeliazkova, Jiazhong Li, Xuehua Li, Huanxiang Liu, Serena Manganelli, Giuseppe F. Mangiatordi, Uko Maran, Gilles Marcou, Todd Martin, Eugene Muratov, Dac-Trung Nguyen, Orazio Nicolotti, Nikolai G. Nikolov, Ulf Norinder, Ester Papa, Michel Petitjean, Geven Piir, Pavel Pogodin, Vladimir Poroikov, Xianliang Qiao, Ann M Richard, Alessandra Roncaglioni, Patricia Ruiz, Chetan Rupakheti, Sugunadevi Sakkiah, Alessandro Sangion, Karl-Werner Schramm, Chandrabose Selvaraj, Imran Shah, Sulev Sild, Lixia Sun, Olivier Taboureau, Yun Tang, Igor V. Tetko, Roberto Todeschini, Weida Tong, Daniela Trisciuzzi, Alexander Tropsha, George Van Den Driessche, Alexandre Varnek, Zhongyu Wang, Eva B. Wedebye, Antony J. Williams, Hongbin Xie, Alexey V. Zakharov, Ziye Zheng, Richard S. Judson

Onderzoeksoutput: Bijdrage aan tijdschrift › Tijdschriftartikel › Academic › peer review

182 Citaten (Scopus)

Samenvatting

BACKGROUND: 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) in vitro approaches and computational modeling.

OBJECTIVES: 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).

METHODS: 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 in vitro assays.

RESULTS: 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.

DISCUSSION: 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 ∼ 875,000 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.

Originele taal-2	Engels
Artikelnummer	027002
Pagina's (van-tot)	27002
Tijdschrift	Environmental Health Perspectives
Volume	128
Nummer van het tijdschrift	2
DOI's	https://doi.org/10.1289/EHP5580
Status	Gepubliceerd - feb. 2020
Extern gepubliceerd	Ja

Financiering

Sihtasutus Archimedes Funding numbers: TK143 Oak Ridge Institute for Science and Education Acronym: ORISE Haridus- ja Teadusministeerium Acronym: HM Funding numbers: IUT34-14

Financiers	Financiernummer
Integrated Laboratory Systems	HHSN273201500010C
National Center for Advancing Translational Sciences	ZIATR000040
European Regional Development Fund

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10.1289/EHP5580

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Mansouri, K., Kleinstreuer, N., Abdelaziz, A. M., Alberga, D., Alves, V. M., Andersson, P. L., Andrade, C. H., Bai, F., Balabin, I., Ballabio, D., Benfenati, E., Bhhatarai, B., Boyer, S., Chen, J., Consonni, V., Farag, S., Fourches, D., García-Sosa, A. T., Gramatica, P., ... Judson, R. S. (2020). CoMPARA: Collaborative Modeling Project for Androgen Receptor Activity. Environmental Health Perspectives, 128(2), 27002. Artikel 027002. https://doi.org/10.1289/EHP5580

@article{6d151416e72e4207a0bcf421ccf7c01c,

title = "CoMPARA: Collaborative Modeling Project for Androgen Receptor Activity",

abstract = "BACKGROUND: 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) in vitro approaches and computational modeling.OBJECTIVES: 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).METHODS: 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{\texttrademark} 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{\texttrademark}/Tox21 HTS in vitro assays.RESULTS: 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.DISCUSSION: 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 ∼ 875,000 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.",

keywords = "Androgens, Computer Simulation, Databases, Factual, Endocrine Disruptors, High-Throughput Screening Assays, Humans, Receptors, Androgen, United States, United States Environmental Protection Agency",

author = "Kamel Mansouri and Nicole Kleinstreuer and Abdelaziz, \{Ahmed M.\} and Domenico Alberga and Alves, \{Vinicius M.\} and Andersson, \{Patrik L.\} and Andrade, \{Carolina H.\} and Fang Bai and Ilya Balabin and Davide Ballabio and Emilio Benfenati and Barun Bhhatarai and Scott Boyer and Jingwen Chen and Viviana Consonni and Sherif Farag and Denis Fourches and Garc{\'i}a-Sosa, \{Alfonso T.\} and Paola Gramatica and Francesca Grisoni and Grulke, \{Chris M.\} and Huixiao Hong and Dragos Horvath and Xin Hu and Ruili Huang and Nina Jeliazkova and Jiazhong Li and Xuehua Li and Huanxiang Liu and Serena Manganelli and Mangiatordi, \{Giuseppe F.\} and Uko Maran and Gilles Marcou and Todd Martin and Eugene Muratov and Dac-Trung Nguyen and Orazio Nicolotti and Nikolov, \{Nikolai G.\} and Ulf Norinder and Ester Papa and Michel Petitjean and Geven Piir and Pavel Pogodin and Vladimir Poroikov and Xianliang Qiao and Richard, \{Ann M\} and Alessandra Roncaglioni and Patricia Ruiz and Chetan Rupakheti and Sugunadevi Sakkiah and Alessandro Sangion and Karl-Werner Schramm and Chandrabose Selvaraj and Imran Shah and Sulev Sild and Lixia Sun and Olivier Taboureau and Yun Tang and Tetko, \{Igor V.\} and Roberto Todeschini and Weida Tong and Daniela Trisciuzzi and Alexander Tropsha and \{Van Den Driessche\}, George and Alexandre Varnek and Zhongyu Wang and Wedebye, \{Eva B.\} and Williams, \{Antony J.\} and Hongbin Xie and Zakharov, \{Alexey V.\} and Ziye Zheng and Judson, \{Richard S.\}",

year = "2020",

month = feb,

doi = "10.1289/EHP5580",

language = "English",

volume = "128",

pages = "27002",

journal = "Environmental Health Perspectives",

issn = "0091-6765",

publisher = "Public Health Services, US Dept of Health and Human Services",

number = "2",

}

Mansouri, K, Kleinstreuer, N, Abdelaziz, AM, Alberga, D, Alves, VM, Andersson, PL, Andrade, CH, Bai, F, Balabin, I, Ballabio, D, Benfenati, E, Bhhatarai, B, Boyer, S, Chen, J, Consonni, V, Farag, S, Fourches, D, García-Sosa, AT, Gramatica, P, Grisoni, F, Grulke, CM, Hong, H, Horvath, D, Hu, X, Huang, R, Jeliazkova, N, Li, J, Li, X, Liu, H, Manganelli, S, Mangiatordi, GF, Maran, U, Marcou, G, Martin, T, Muratov, E, Nguyen, D-T, Nicolotti, O, Nikolov, NG, Norinder, U, Papa, E, Petitjean, M, Piir, G, Pogodin, P, Poroikov, V, Qiao, X, Richard, AM, Roncaglioni, A, Ruiz, P, Rupakheti, C, Sakkiah, S, Sangion, A, Schramm, K-W, Selvaraj, C, Shah, I, Sild, S, Sun, L, Taboureau, O, Tang, Y, Tetko, IV, Todeschini, R, Tong, W, Trisciuzzi, D, Tropsha, A, Van Den Driessche, G, Varnek, A, Wang, Z, Wedebye, EB, Williams, AJ, Xie, H, Zakharov, AV, Zheng, Z & Judson, RS 2020, 'CoMPARA: Collaborative Modeling Project for Androgen Receptor Activity', Environmental Health Perspectives, vol. 128, nr. 2, 027002, blz. 27002. https://doi.org/10.1289/EHP5580

TY - JOUR

T1 - CoMPARA

T2 - Collaborative Modeling Project for Androgen Receptor Activity

AU - Mansouri, Kamel

AU - Kleinstreuer, Nicole

AU - Abdelaziz, Ahmed M.

AU - Alberga, Domenico

AU - Alves, Vinicius M.

AU - Andersson, Patrik L.

AU - Andrade, Carolina H.

AU - Bai, Fang

AU - Balabin, Ilya

AU - Ballabio, Davide

AU - Benfenati, Emilio

AU - Bhhatarai, Barun

AU - Boyer, Scott

AU - Chen, Jingwen

AU - Consonni, Viviana

AU - Farag, Sherif

AU - Fourches, Denis

AU - García-Sosa, Alfonso T.

AU - Gramatica, Paola

AU - Grisoni, Francesca

AU - Grulke, Chris M.

AU - Hong, Huixiao

AU - Horvath, Dragos

AU - Hu, Xin

AU - Huang, Ruili

AU - Jeliazkova, Nina

AU - Li, Jiazhong

AU - Li, Xuehua

AU - Liu, Huanxiang

AU - Manganelli, Serena

AU - Mangiatordi, Giuseppe F.

AU - Maran, Uko

AU - Marcou, Gilles

AU - Martin, Todd

AU - Muratov, Eugene

AU - Nguyen, Dac-Trung

AU - Nicolotti, Orazio

AU - Nikolov, Nikolai G.

AU - Norinder, Ulf

AU - Papa, Ester

AU - Petitjean, Michel

AU - Piir, Geven

AU - Pogodin, Pavel

AU - Poroikov, Vladimir

AU - Qiao, Xianliang

AU - Richard, Ann M

AU - Roncaglioni, Alessandra

AU - Ruiz, Patricia

AU - Rupakheti, Chetan

AU - Sakkiah, Sugunadevi

AU - Sangion, Alessandro

AU - Schramm, Karl-Werner

AU - Selvaraj, Chandrabose

AU - Shah, Imran

AU - Sild, Sulev

AU - Sun, Lixia

AU - Taboureau, Olivier

AU - Tang, Yun

AU - Tetko, Igor V.

AU - Todeschini, Roberto

AU - Tong, Weida

AU - Trisciuzzi, Daniela

AU - Tropsha, Alexander

AU - Van Den Driessche, George

AU - Varnek, Alexandre

AU - Wang, Zhongyu

AU - Wedebye, Eva B.

AU - Williams, Antony J.

AU - Xie, Hongbin

AU - Zakharov, Alexey V.

AU - Zheng, Ziye

AU - Judson, Richard S.

PY - 2020/2

Y1 - 2020/2

N2 - BACKGROUND: 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) in vitro approaches and computational modeling.OBJECTIVES: 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).METHODS: 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 in vitro assays.RESULTS: 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.DISCUSSION: 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 ∼ 875,000 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.

AB - BACKGROUND: 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) in vitro approaches and computational modeling.OBJECTIVES: 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).METHODS: 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 in vitro assays.RESULTS: 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.DISCUSSION: 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 ∼ 875,000 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.

KW - Androgens

KW - Computer Simulation

KW - Databases, Factual

KW - Endocrine Disruptors

KW - High-Throughput Screening Assays

KW - Humans

KW - Receptors, Androgen

KW - United States

KW - United States Environmental Protection Agency

UR - https://www.scopus.com/pages/publications/85079531920

U2 - 10.1289/EHP5580

DO - 10.1289/EHP5580

M3 - Article

C2 - 32074470

SN - 0091-6765

VL - 128

SP - 27002

JO - Environmental Health Perspectives

JF - Environmental Health Perspectives

IS - 2

M1 - 027002

ER -

CoMPARA: Collaborative Modeling Project for Androgen Receptor Activity

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