Toxicity of bisphenol analogues on the reproductive, nervous, and immune systems, and their relationships to gut microbiome and metabolism: insights from a multi-species comparison
Callie M. McDonough, Hannah Shibo Xu, Tai L. Guo
Abstract
, zebrafish, turtles, sheep, rodents, and humans. In addition, the mechanisms of action were discussed with focus on bisphenol S and bisphenol F. It was found that these BPA analogues exert their toxic effects on different organs and systems through various mechanisms including epigenetic modifications and effects on cell signaling pathways, microbiome, and metabolome in different species. More research is needed to study the relative toxicity of the lesser-known BPA analogues compared to BPA, both systemically and organ specifically, and to better define the underlying mechanisms of action, in particular, the potentials of disrupting microbiome and metabolism.
Topics & Concepts
ToxicityBiologyMicrobiomeReproductive toxicityZebrafishBisphenol AMetabolomeEndocrine disruptorBisphenolNeurotoxicityCaenorhabditis elegansMetabolomicsEndocrine systemPharmacologyChemistryBioinformaticsBiochemistryMedicineInternal medicineHormoneOrganic chemistryGeneEpoxyEffects and risks of endocrine disrupting chemicals