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Potentiation of Adipogenesis by Reactive Oxygen Species Is a Unifying Mechanism in the Proadipogenic Properties of Bisphenol A and Its New Structural Analogues

Radha Dutt Singh, Jessica L. Wager, Taylor B. Scheidl, Liam Connors, Sarah Easson, Mikyla A. Callaghan, Samuel Alatorre-Hinojosa, Lucy Swift, Pina Colarusso, Anshul S. Jadli, Timothy E. Shutt, Vaibhav B. Patel, Jennifer Thompson

2023Antioxidants and Redox Signaling11 citationsDOI

Abstract

Aims: Structural analogues of bisphenol A (BPA), including bisphenol S (BPS) and bisphenol F (BPF), are emerging environmental toxicants as their presence in the environment is rising since new regulatory restrictions were placed on BPA-containing infant products. The adipogenesis-enhancing effect of bisphenols may explain the link between human exposure and metabolic disease; however, underlying molecular pathways remain unresolved. Results: Exposure to BPS, BPF, BPA, or reactive oxygen species (ROS) generators enhanced lipid droplet formation and expression of adipogenic markers after induction of differentiation in adipose-derived progenitors isolated from mice. RNAseq analysis in BPS-exposed progenitors revealed modulation in pathways regulating adipogenesis and responses to oxidative stress. ROS were higher in bisphenol-exposed cells, while cotreatment with antioxidants attenuated adipogenesis and abolished the effect of BPS. There was a loss of mitochondrial membrane potential in BPS-exposed cells and mitochondria-derived ROS contributed to the potentiation of adipogenesis by BPS and its analogues. Male mice exposed to BPS during gestation had higher whole-body adiposity, as measured by time domain nuclear magnetic resonance, while postnatal exposure had no impact on adiposity in either sex. Innovation: These findings support existing evidence showing a role for ROS in regulating adipocyte differentiation and are the first to highlight ROS as a unifying mechanism that explains the proadipogenic properties of BPA and its structural analogues. Conclusion: ROS act as signaling molecules in the regulation of adipocyte differentiation and mediate bisphenol-induced potentiation of adipogenesis. Antioxid. Redox Signal. 40, 1–15.

Topics & Concepts

AdipogenesisReactive oxygen speciesCell biologyBisphenol SBisphenol AOxidative stressAdipocyteChemistryBisphenolMitochondrionBiologyEndocrinologyAdipose tissueInternal medicineMedicineOrganic chemistryEpoxyEffects and risks of endocrine disrupting chemicalsToxic Organic Pollutants Impact
Potentiation of Adipogenesis by Reactive Oxygen Species Is a Unifying Mechanism in the Proadipogenic Properties of Bisphenol A and Its New Structural Analogues | Litcius