TY - JOUR
T1 - Toxicogenomics Data for Chemical Safety Assessment and Development of New Approach Methodologies
T2 - An Adverse Outcome Pathway-Based Approach
AU - Saarimäki, Laura Aliisa
AU - Morikka, Jack
AU - Pavel, Alisa
AU - Korpilähde, Seela
AU - del Giudice, Giusy
AU - Federico, Antonio
AU - Fratello, Michele
AU - Serra, Angela
AU - Greco, Dario
N1 - Funding Information:
This work received funding from the EU Horizon 2020 project NanoSolveIT (grant agreement no. 814572), the Academy of Finland (grant agreement no. 322761), and the European Research Council (ERC) programme, Consolidator project ARCHIMEDES (grant agreement no. 101043848). L.A.S. was supported by the Emil Aaltonen Foundation and A.S. by the Tampere Institute for Advanced Study.
Publisher Copyright:
© 2022 The Authors. Advanced Science published by Wiley-VCH GmbH.
PY - 2023/1/13
Y1 - 2023/1/13
N2 - Mechanistic toxicology provides a powerful approach to inform on the safety of chemicals and the development of safe-by-design compounds. Although toxicogenomics supports mechanistic evaluation of chemical exposures, its implementation into the regulatory framework is hindered by uncertainties in the analysis and interpretation of such data. The use of mechanistic evidence through the adverse outcome pathway (AOP) concept is promoted for the development of new approach methodologies (NAMs) that can reduce animal experimentation. However, to unleash the full potential of AOPs and build confidence into toxicogenomics, robust associations between AOPs and patterns of molecular alteration need to be established. Systematic curation of molecular events to AOPs will create the much-needed link between toxicogenomics and systemic mechanisms depicted by the AOPs. This, in turn, will introduce novel ways of benefitting from the AOPs, including predictive models and targeted assays, while also reducing the need for multiple testing strategies. Hence, a multi-step strategy to annotate AOPs is developed, and the resulting associations are applied to successfully highlight relevant adverse outcomes for chemical exposures with strong in vitro and in vivo convergence, supporting chemical grouping and other data-driven approaches. Finally, a panel of AOP-derived in vitro biomarkers for pulmonary fibrosis (PF) is identified and experimentally validated.
AB - Mechanistic toxicology provides a powerful approach to inform on the safety of chemicals and the development of safe-by-design compounds. Although toxicogenomics supports mechanistic evaluation of chemical exposures, its implementation into the regulatory framework is hindered by uncertainties in the analysis and interpretation of such data. The use of mechanistic evidence through the adverse outcome pathway (AOP) concept is promoted for the development of new approach methodologies (NAMs) that can reduce animal experimentation. However, to unleash the full potential of AOPs and build confidence into toxicogenomics, robust associations between AOPs and patterns of molecular alteration need to be established. Systematic curation of molecular events to AOPs will create the much-needed link between toxicogenomics and systemic mechanisms depicted by the AOPs. This, in turn, will introduce novel ways of benefitting from the AOPs, including predictive models and targeted assays, while also reducing the need for multiple testing strategies. Hence, a multi-step strategy to annotate AOPs is developed, and the resulting associations are applied to successfully highlight relevant adverse outcomes for chemical exposures with strong in vitro and in vivo convergence, supporting chemical grouping and other data-driven approaches. Finally, a panel of AOP-derived in vitro biomarkers for pulmonary fibrosis (PF) is identified and experimentally validated.
KW - adverse outcome pathways
KW - biomarkers
KW - new approach methodologies
KW - toxicogenomics
U2 - 10.1002/advs.202203984
DO - 10.1002/advs.202203984
M3 - Article
C2 - 36479815
AN - SCOPUS:85143988639
SN - 2198-3844
VL - 10
JO - Advanced science
JF - Advanced science
IS - 2
M1 - 2203984
ER -