Transcriptomic alterations in the brain of painted turtles (<i>Chrysemys picta</i>) developmentally exposed to bisphenol A or ethinyl estradiol

Manshack, Lindsey K.; Conard, Caroline M.; Bryan, Sara J.; Deem, Sharon L.; Holliday, Dawn K.; Bivens, Nathan J.; Givan, Scott A.; Rosenfeld, Cheryl S.

doi:10.1152/physiolgenomics.00103.2016

Cited by 18 publications

(12 citation statements)

References 85 publications

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“…The detailed analysis of the hypothalamic regions in post‐embryonic developmental stages did not provide evidence for disruption in the numbers of mitotically active progenitors and neurones and it is likely that other brain regions might be affected at cellular levels in the bisphenol‐treated larval zebrafish. Indeed, other studies have shown BPA effects on brain regions others than hypothalamus 128,129 . Thus, further analysis should be performed in multiple brain regions to assess how bisphenols affect the neurobehavioural system.…”

Section: Discussionmentioning

confidence: 99%

Impacts of bisphenol A analogues on zebrafish post‐embryonic brain

Coumailleau

Trempont

Pellegrini

et al. 2020

J Neuroendocrinology

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Bisphenol A (BPA) is a widely studied and well‐recognised endocrine‐disrupting chemical, and one of the current issues is its safe replacement by various analogues. Using larva zebrafish as a model, the present study reveals that moderate and chronic exposure to BPA analogues such as bisphenol S, bisphenol F and bisphenol AF may also affect vertebrate neurodevelopment and locomotor activity. Several parameters of embryo‐larval development were investigated, such as mortality, hatching, number of mitotically active cell, as defined by 5‐bromo‐2'‐deoxyuridine incorporation and proliferative cell nuclear antigen labelling, aromatase B protein expression in radial glial cell and locomotor activity. Our results show that exposure to several bisphenol analogues induced an acceleration of embryo hatching rate. At the level of the developing brain, a strong up‐regulation of the oestrogen‐sensitive Aromatase B was also detected in the hypothalamic region. This up‐regulation was not associated with effects on the numbers of mitotically active progenitors nor differentiated neurones in the preoptic area and in the nuclear recessus posterior of the hypothalamus zebrafish larvae. Furthermore, using a high‐throughput video tracking system to monitor locomotor activity in zebrafish larvae, we show that some bisphenol analogues, such as bisphenol AF, significantly reduced locomotor activity following 6 days of exposure. Taken together, our study provides evidence that BPA analogues can also affect the neurobehavioural development of zebrafish.

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Section: Discussionmentioning

confidence: 99%

Impacts of bisphenol A analogues on zebrafish post‐embryonic brain

Coumailleau

Trempont

Pellegrini

et al. 2020

J Neuroendocrinology

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“…This finding may suggest that exposure to one of these EDCs disrupts the normal neural pathways that regulate select behaviors. We previously determined that developmental exposure to BPA or EE in painted turtles resulted in significant gene expression changes, especially those associated with mitochondrial and ribosomal protein functions, that correlated with prior performance when tested in an aquatic spatial maze [72]. While such analyses cannot establish causation, they suggested a list of candidate genes that may be vulnerable to early life exposure to BPA or EE and contribute to behavioral changes later-inlife.…”

Section: Discussionmentioning

confidence: 99%

Gene expression and DNA methylation changes in the hypothalamus and hippocampus of adult rats developmentally exposed to bisphenol A or ethinyl estradiol: a CLARITY-BPA consortium study

et al. 2018

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Bisphenol A (BPA), an endocrine disrupting chemical (EDC), is a ubiquitous pollutant. As part of the Consortium Linking Academic and Regulatory Insights on BPA Toxicity (CLARITY-BPA), we sought to determine whether exposure of Sprague-Dawley rats to 2,500 μg/kg/day BPA (BPA) or 0.5 μg/kg/day ethinyl estradiol (EE) from gestational day 6 through postnatal day 21 induces behavior-relevant gene expression and DNA methylation changes in hippocampus and hypothalamus at adulthood. RNA and DNA were isolated from both regions. Expression of ten genes (Dnmt1, Dnmt3a, Dnmt3b, Esr1, Esr2, Avp, Ar, Oxt, Otr, and Bdnf) presumably altered by early-life BPA/EE exposure was examined. Three genes (Bdnf, Dnmt3b, and Esr1) were studied for DNA methylation changes in their putative 5' promoter regions. Molecular changes in hippocampus were correlated to prior Barnes maze performance, including sniffing correct holes, distance traveled, and velocity. Exposure to BPA and/or EE disrupted patterns of sexually dimorphic gene expression/promoter DNA methylation observed in hippocampus and hypothalamus of controls. In the hippocampus of female offspring, BPA exposure resulted in hypermethylation of the putative 5' promoter region of Bdnf, while EE exposure induced hypomethylation. Bdnf methylation was weakly associated with Bdnf expression in hippocampi of female rats. Hippocampal Bdnf expression in females showed a weak negative association with sniffing correct hole in Barnes maze. Hippocampal expression of Avp, Esr2, Oxt, and Otr was strongly associated with velocity of control rats in Barnes maze. Findings suggest BPA exposure induced non-EE-like gene expression and epigenetic changes in adult rat hippocampi, a region involved in spatial navigation.

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“…Bisphenol A (BPA), which is made by Phenol and acetone [2], is an industrially important chemical that is used as a raw material in the manufacture of many products such as engineering plastics (e.g., epoxy resins/ polycarbonate plastics), food cans (i.e., lacquer coatings), and dental composites/sealants [3]. Extensive evidence indicates that BPA induces feminization during gonadal ontogeny of fishes [4], reptiles [5], birds [6], and human [7,8], and it is identified as an endocrine disruptor and leads to carcinogenesis [9]. Biology is exposed to ubiquitous BPA Though its hazardous effects, more than 5 million metric tons of BPA was produced in 2011 and was mainly used in East Asia (Korea, China and Japan), and kept increasing year by year [10,11].…”

Section: Introductionmentioning

confidence: 99%