New approach methods to improve human health risk assessment of thyroid hormone system disruption-a PARC project

Louise Ramhøj; Marta Axelstad; Yoni Baert; Ana I. Cañas-Portilla; Frédéric Chalmel; Lars Dahmen; Antonio De La Vieja; Bertrand Evrard; Ann-Cathrin Haigis; Timo Hamers; Kim Heikamp; Henrik Holbech; Patricia Iglesias-Hernandez; Dries Knapen; Lorna Marchandise; Jane E. Morthorst; Nikolai Georgiev Nikolov; Ana C. V. E. Nissen; Michael Oelgeschlaeger; Kostja Renko; Vera Rogiers; Gerrit Schüürmann; Evelyn Stinckens; Mette H. Stub; Monica Torres-Ruiz; Majorie Van Duursen; Tamara Vanhaecke; Lucia Vergauwen; Eva Bay Wedebye; Terje Svingen

doi:10.3389/ftox.2023.1189303

New approach methods to improve human health risk assessment of thyroid hormone system disruption-a PARC project

Louise Ramhøj^*, Marta Axelstad, Yoni Baert, Ana I. Cañas-Portilla, Frédéric Chalmel, Lars Dahmen, Antonio De La Vieja, Bertrand Evrard, Ann-Cathrin Haigis, Timo Hamers, Kim Heikamp, Henrik Holbech, Patricia Iglesias-Hernandez, Dries Knapen, Lorna Marchandise, Jane E. Morthorst, Nikolai Georgiev Nikolov, Ana C. V. E. Nissen, Michael Oelgeschlaeger, Kostja RenkoVera Rogiers, Gerrit Schüürmann, Evelyn Stinckens, Mette H. Stub, Monica Torres-Ruiz, Majorie Van Duursen, Tamara Vanhaecke, Lucia Vergauwen, Eva Bay Wedebye, Terje Svingen

^*Corresponding author for this work

Research output: Contribution to journal › Review › peer-review

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Abstract

Current test strategies to identify thyroid hormone (TH) system disruptors are inadequate for conducting robust chemical risk assessment required for regulation. The tests rely heavily on histopathological changes in rodent thyroid glands or measuring changes in systemic TH levels, but they lack specific new approach methodologies (NAMs) that can adequately detect TH-mediated effects. Such alternative test methods are needed to infer a causal relationship between molecular initiating events and adverse outcomes such as perturbed brain development. Although some NAMs that are relevant for TH system disruption are available-and are currently in the process of regulatory validation-there is still a need to develop more extensive alternative test batteries to cover the range of potential key events along the causal pathway between initial chemical disruption and adverse outcomes in humans. This project, funded under the Partnership for the Assessment of Risk from Chemicals (PARC) initiative, aims to facilitate the development of NAMs that are specific for TH system disruption by characterizing in vivo mechanisms of action that can be targeted by in embryo/in vitro/in silico/in chemico testing strategies. We will develop and improve human-relevant in vitro test systems to capture effects on important areas of the TH system. Furthermore, we will elaborate on important species differences in TH system disruption by incorporating non-mammalian vertebrate test species alongside classical laboratory rat species and human-derived in vitro assays.

Original language	English
Article number	1189303
Journal	Frontiers in Toxicology
Volume	5
Number of pages	10
ISSN	2673-3080
DOIs	https://doi.org/10.3389/ftox.2023.1189303
Publication status	Published - 2023

Bibliographical note

This project is part of the Partnership for the Assessment of Risk from Chemicals (PARC), funding by the European Union’s Horizon Europe research and innovation programme under Grant Agreement No 101057014. Additional co-funders are acknowledged, including the Danish Environmental Protection Agency (DK EPA), the German Federal Institute for Risk Assessment (BfR), the University of Antwerp Research Fund (project ID 44602), the Spanish Government (Grant Number: MCIN/AEI/10.13039/501100011033/PID 2021-125948OB-I00/FEDER, UE), and Chair Mireille Aerens for the Development of
Alternative Methods, Vrije Universiteit Brussel.

Keywords

PARC
Endocrine disruption
Thyroid disruption
Non-animal test methods
Regulatory toxicology
Adverse outcome pathways
Chemicals

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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Ramhøj, L., Axelstad, M., Baert, Y., Cañas-Portilla, A. I., Chalmel, F., Dahmen, L., De La Vieja, A., Evrard, B., Haigis, A.-C., Hamers, T., Heikamp, K., Holbech, H., Iglesias-Hernandez, P., Knapen, D., Marchandise, L., Morthorst, J. E., Nikolov, N. G., Nissen, A. C. V. E., Oelgeschlaeger, M., ... Svingen, T. (2023). New approach methods to improve human health risk assessment of thyroid hormone system disruption-a PARC project. Frontiers in Toxicology, 5, Article 1189303. https://doi.org/10.3389/ftox.2023.1189303

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abstract = "Current test strategies to identify thyroid hormone (TH) system disruptors are inadequate for conducting robust chemical risk assessment required for regulation. The tests rely heavily on histopathological changes in rodent thyroid glands or measuring changes in systemic TH levels, but they lack specific new approach methodologies (NAMs) that can adequately detect TH-mediated effects. Such alternative test methods are needed to infer a causal relationship between molecular initiating events and adverse outcomes such as perturbed brain development. Although some NAMs that are relevant for TH system disruption are available-and are currently in the process of regulatory validation-there is still a need to develop more extensive alternative test batteries to cover the range of potential key events along the causal pathway between initial chemical disruption and adverse outcomes in humans. This project, funded under the Partnership for the Assessment of Risk from Chemicals (PARC) initiative, aims to facilitate the development of NAMs that are specific for TH system disruption by characterizing in vivo mechanisms of action that can be targeted by in embryo/in vitro/in silico/in chemico testing strategies. We will develop and improve human-relevant in vitro test systems to capture effects on important areas of the TH system. Furthermore, we will elaborate on important species differences in TH system disruption by incorporating non-mammalian vertebrate test species alongside classical laboratory rat species and human-derived in vitro assays.",

keywords = "PARC, Endocrine disruption, Thyroid disruption, Non-animal test methods, Regulatory toxicology, Adverse outcome pathways, Chemicals",

author = "Louise Ramh{\o}j and Marta Axelstad and Yoni Baert and Ca{\~n}as-Portilla, {Ana I.} and Fr{\'e}d{\'e}ric Chalmel and Lars Dahmen and {De La Vieja}, Antonio and Bertrand Evrard and Ann-Cathrin Haigis and Timo Hamers and Kim Heikamp and Henrik Holbech and Patricia Iglesias-Hernandez and Dries Knapen and Lorna Marchandise and Morthorst, {Jane E.} and Nikolov, {Nikolai Georgiev} and Nissen, {Ana C. V. E.} and Michael Oelgeschlaeger and Kostja Renko and Vera Rogiers and Gerrit Sch{\"u}{\"u}rmann and Evelyn Stinckens and Stub, {Mette H.} and Monica Torres-Ruiz and {Van Duursen}, Majorie and Tamara Vanhaecke and Lucia Vergauwen and Wedebye, {Eva Bay} and Terje Svingen",

note = "This project is part of the Partnership for the Assessment of Risk from Chemicals (PARC), funding by the European Union{\textquoteright}s Horizon Europe research and innovation programme under Grant Agreement No 101057014. Additional co-funders are acknowledged, including the Danish Environmental Protection Agency (DK EPA), the German Federal Institute for Risk Assessment (BfR), the University of Antwerp Research Fund (project ID 44602), the Spanish Government (Grant Number: MCIN/AEI/10.13039/501100011033/PID 2021-125948OB-I00/FEDER, UE), and Chair Mireille Aerens for the Development of Alternative Methods, Vrije Universiteit Brussel.",

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doi = "10.3389/ftox.2023.1189303",

language = "English",

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Ramhøj, L , Axelstad, M, Baert, Y, Cañas-Portilla, AI, Chalmel, F, Dahmen, L, De La Vieja, A, Evrard, B, Haigis, A-C, Hamers, T, Heikamp, K, Holbech, H, Iglesias-Hernandez, P, Knapen, D, Marchandise, L, Morthorst, JE, Nikolov, NG , Nissen, ACVE, Oelgeschlaeger, M, Renko, K, Rogiers, V, Schüürmann, G, Stinckens, E, Stub, MH, Torres-Ruiz, M, Van Duursen, M, Vanhaecke, T, Vergauwen, L, Wedebye, EB & Svingen, T 2023, 'New approach methods to improve human health risk assessment of thyroid hormone system disruption-a PARC project', Frontiers in Toxicology, vol. 5, 1189303. https://doi.org/10.3389/ftox.2023.1189303

TY - JOUR

T1 - New approach methods to improve human health risk assessment of thyroid hormone system disruption-a PARC project

AU - Ramhøj, Louise

AU - Axelstad, Marta

AU - Baert, Yoni

AU - Cañas-Portilla, Ana I.

AU - Chalmel, Frédéric

AU - Dahmen, Lars

AU - De La Vieja, Antonio

AU - Evrard, Bertrand

AU - Haigis, Ann-Cathrin

AU - Hamers, Timo

AU - Heikamp, Kim

AU - Holbech, Henrik

AU - Iglesias-Hernandez, Patricia

AU - Knapen, Dries

AU - Marchandise, Lorna

AU - Morthorst, Jane E.

AU - Nikolov, Nikolai Georgiev

AU - Nissen, Ana C. V. E.

AU - Oelgeschlaeger, Michael

AU - Renko, Kostja

AU - Rogiers, Vera

AU - Schüürmann, Gerrit

AU - Stinckens, Evelyn

AU - Stub, Mette H.

AU - Torres-Ruiz, Monica

AU - Van Duursen, Majorie

AU - Vanhaecke, Tamara

AU - Vergauwen, Lucia

AU - Wedebye, Eva Bay

AU - Svingen, Terje

N1 - This project is part of the Partnership for the Assessment of Risk from Chemicals (PARC), funding by the European Union’s Horizon Europe research and innovation programme under Grant Agreement No 101057014. Additional co-funders are acknowledged, including the Danish Environmental Protection Agency (DK EPA), the German Federal Institute for Risk Assessment (BfR), the University of Antwerp Research Fund (project ID 44602), the Spanish Government (Grant Number: MCIN/AEI/10.13039/501100011033/PID 2021-125948OB-I00/FEDER, UE), and Chair Mireille Aerens for the Development of Alternative Methods, Vrije Universiteit Brussel.

PY - 2023

Y1 - 2023

N2 - Current test strategies to identify thyroid hormone (TH) system disruptors are inadequate for conducting robust chemical risk assessment required for regulation. The tests rely heavily on histopathological changes in rodent thyroid glands or measuring changes in systemic TH levels, but they lack specific new approach methodologies (NAMs) that can adequately detect TH-mediated effects. Such alternative test methods are needed to infer a causal relationship between molecular initiating events and adverse outcomes such as perturbed brain development. Although some NAMs that are relevant for TH system disruption are available-and are currently in the process of regulatory validation-there is still a need to develop more extensive alternative test batteries to cover the range of potential key events along the causal pathway between initial chemical disruption and adverse outcomes in humans. This project, funded under the Partnership for the Assessment of Risk from Chemicals (PARC) initiative, aims to facilitate the development of NAMs that are specific for TH system disruption by characterizing in vivo mechanisms of action that can be targeted by in embryo/in vitro/in silico/in chemico testing strategies. We will develop and improve human-relevant in vitro test systems to capture effects on important areas of the TH system. Furthermore, we will elaborate on important species differences in TH system disruption by incorporating non-mammalian vertebrate test species alongside classical laboratory rat species and human-derived in vitro assays.

AB - Current test strategies to identify thyroid hormone (TH) system disruptors are inadequate for conducting robust chemical risk assessment required for regulation. The tests rely heavily on histopathological changes in rodent thyroid glands or measuring changes in systemic TH levels, but they lack specific new approach methodologies (NAMs) that can adequately detect TH-mediated effects. Such alternative test methods are needed to infer a causal relationship between molecular initiating events and adverse outcomes such as perturbed brain development. Although some NAMs that are relevant for TH system disruption are available-and are currently in the process of regulatory validation-there is still a need to develop more extensive alternative test batteries to cover the range of potential key events along the causal pathway between initial chemical disruption and adverse outcomes in humans. This project, funded under the Partnership for the Assessment of Risk from Chemicals (PARC) initiative, aims to facilitate the development of NAMs that are specific for TH system disruption by characterizing in vivo mechanisms of action that can be targeted by in embryo/in vitro/in silico/in chemico testing strategies. We will develop and improve human-relevant in vitro test systems to capture effects on important areas of the TH system. Furthermore, we will elaborate on important species differences in TH system disruption by incorporating non-mammalian vertebrate test species alongside classical laboratory rat species and human-derived in vitro assays.

KW - PARC

KW - Endocrine disruption

KW - Thyroid disruption

KW - Non-animal test methods

KW - Regulatory toxicology

KW - Adverse outcome pathways

KW - Chemicals

U2 - 10.3389/ftox.2023.1189303

DO - 10.3389/ftox.2023.1189303

M3 - Review

C2 - 37265663

SN - 2673-3080

VL - 5

JO - Frontiers in Toxicology

JF - Frontiers in Toxicology

M1 - 1189303

ER -

New approach methods to improve human health risk assessment of thyroid hormone system disruption-a PARC project

Abstract

Bibliographical note

Keywords

UN SDGs

Access to Document

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