Critical Review of Read‐Across Potential in Testing for Endocrine‐Related Effects in Vertebrate Ecological Receptors

Critical Review of Read‐Across Potential in Testing for Endocrine‐Related Effects in Vertebrate Ecological Receptors

Recent regulatory testing programs have been designed to evaluate whether a chemical has the potential to interact with the endocrine system and could cause adverse effects. Some endocrine pathways are highly conserved among vertebrates, providing a potential to extrapolate data generated for one ve...

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Bibliographic Details
Published in:Environmental toxicology and chemistry Vol. 39; no. 4; pp. 739 - 753
Main Authors: McArdle, Margaret E., Freeman, Elaine L., Staveley, Jane P., Ortego, Lisa S., Coady, Katherine K., Weltje, Lennart, Weyers, Arnd, Wheeler, James R., Bone, Audrey J.
Format: Journal Article
Language:English
Published: United States Blackwell Publishing Ltd 01-04-2020
John Wiley and Sons Inc
Subjects:
Adverse outcome pathway
Amphibians
Birds
Critical Review
Ecological effects
Endocrine system
Endocrine‐disrupting chemicals
Estrogens
Fish
Hypothalamus
Mammals
Pituitary
Predictive toxicology
Read‐across
Receptors
Regulatory testing
Reptiles
Reptiles & amphibians
Steroidogenesis
Taxonomy
Thyroid
Thyroid gland
Toxicology
Vertebrates
Wildlife conservation
Read-across
Predictive toxicology
Endocrine-disrupting chemicals
Regulatory testing
Adverse outcome pathway
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Summary:Recent regulatory testing programs have been designed to evaluate whether a chemical has the potential to interact with the endocrine system and could cause adverse effects. Some endocrine pathways are highly conserved among vertebrates, providing a potential to extrapolate data generated for one vertebrate taxonomic group to others (i.e., biological read‐across). To assess the potential for biological read‐across, we reviewed tools and approaches that support species extrapolation for fish, amphibians, birds, and reptiles. For each of the estrogen, androgen, thyroid, and steroidogenesis (EATS) pathways, we considered the pathway conservation across species and the responses of endocrine‐sensitive endpoints. The available data show a high degree of confidence in the conservation of the hypothalamus–pituitary–gonadal axis between fish and mammals and the hypothalamus–pituitary–thyroid axis between amphibians and mammals. Comparatively, there is less empirical evidence for the conservation of other EATS pathways between other taxonomic groups, but this may be due to limited data. Although more information on sensitive pathways and endpoints would be useful, current developments in the use of molecular target sequencing similarity tools and thoughtful application of the adverse outcome pathway concept show promise for further advancement of read‐across approaches for testing EATS pathways in vertebrate ecological receptors. Environ Toxicol Chem 2020;39:739–753. © 2020 The Authors. Environmental Toxicology and Chemistry published by Wiley Periodicals, Inc. on behalf of SETAC.
ISSN:0730-7268
1552-8618
DOI:10.1002/etc.4682