Bisphenol A and its analogues disrupt centrosome cycle and microtubule dynamics in prostate cancer.

@article{Ho2017BisphenolAA,
  title={Bisphenol A and its analogues disrupt centrosome cycle and microtubule dynamics in prostate cancer.},
  author={Shuk-Mei Ho and Rahul K. Rao and Sarah Q. To and Emma Schoch and Pheruza Tarapore},
  journal={Endocrine-related cancer},
  year={2017},
  volume={24 2},
  pages={
          83-96
        }
}
Humans are increasingly exposed to structural analogues of bisphenol A (BPA), as BPA is being replaced by these compounds in BPA-free consumer products. We have previously shown that chronic and developmental exposure to BPA is associated with increased prostate cancer (PCa) risk in human and animal models. Here, we examine whether exposure of PCa cells (LNCaP, C4-2) to low-dose BPA and its structural analogues (BPS, BPF, BPAF, TBBPA, DMBPA and TMBPA) affects centrosome amplification (CA), a… 
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Genome-Wide Analysis of Low Dose Bisphenol-A (BPA) Exposure in Human Prostate Cells
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The nature of the non-estrogenic gene signature associated with BPA was dissected and investigated with a focus on transcripts relevant to epigenetic modifications as the expression of transcripts encoding nuclear hormone receptors as well as histone and DNA methylation, modifying enzymes were significantly perturbed by exposure to BPA.
Bisphenol A Alters the Energy Metabolism of Stromal Cells and Could Promote Bladder Cancer Progression
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It is demonstrated that chronic exposure to BPA could promote cancer progression through an alteration of the metabolism of stromal cells, which could modify the understanding of bladder cancer.
Testicular toxicity of bisphenol compounds: Homeostasis disruption of cholesterol/testosterone via PPARα activation.
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Bisphenol A and Bisphenol S Induce Endocrine and Chromosomal Alterations in Brown Trout
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Results indicate that both bisphenol A and its alternative bispenol S cause endocrine disrupting and genotoxic effects in brown trout, although suggesting two different mechanisms of damage underlying bisp Hennessy A and bisphensol S activity.
Comprehensive analysis based in silico study of alternative bisphenols - Environmental explanation of prostate cancer progression.
In vitro evaluation of the hepatic lipid accumulation of bisphenol analogs: A high-content screening assay.
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    Toxicology in vitro : an international journal published in association with BIBRA
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Use of embryonic stem cell-derived cardiomyocytes to study cardiotoxicity of bisphenol AF via the GPER/CAM/eNOS pathway.
Computational risk assessment framework for the hazard analysis of bisphenols and quinone metabolites.
Environmental Phenol and Paraben Exposure Risks and Their Potential Influence on the Gene Expression Involved in the Prognosis of Prostate Cancer
TLDR
A significant association of higher levels of EPs and PBs in the urine samples, categorical and numerical confounders, with self-reported PCa cases is demonstrated, which may contribute to the severity of the disease prognosis, especially in the older population of US men.
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References

SHOWING 1-10 OF 67 REFERENCES
Exposure to Bisphenol A Correlates with Early-Onset Prostate Cancer and Promotes Centrosome Amplification and Anchorage-Independent Growth In Vitro
TLDR
It is suggested that urinary BPA level is an independent prognostic marker in Prostate cancer and that BPA exposure may lower serum PSA levels in prostate cancer patients.
Mutagenicity and DNA Damage of Bisphenol a and its Structural Analogues in Hepg2 Cells
TLDR
None of the tested bisphenols showed a mutagenic effect in Salmonella typhimurium strains TA98 and TA100 in either the presence or absence of external S9-mediated metabolic activation (Aroclor 1254-induced male rat liver).
Exposure of Human Prostaspheres to Bisphenol A Epigenetically Regulates SNORD Family Noncoding RNAs via Histone Modification.
TLDR
A novel and unique action of BPA is revealed in disrupting expression of PCa-associated SNORDs and a putative mechanism for reprogramming the prostasphere epigenome via histone modification is revealed.
Bisphenol A Disrupts HNF4α-Regulated Gene Networks Linking to Prostate Preneoplasia and Immune Disruption in Noble Rats.
TLDR
The findings suggest that the adult rat prostate, under a physiologically relevant T environment, is susceptible to BPA-induced transcriptomic reprogramming, immune disruption, and aberrant growth dysregulation in a manner distinct from those caused by E2.
Interference with microtubules and induction of micronuclei in vitro by various bisphenols.
Developmental exposure to estradiol and bisphenol A increases susceptibility to prostate carcinogenesis and epigenetically regulates phosphodiesterase type 4 variant 4.
TLDR
It is shown that transient developmental exposure of rats to low, environmentally relevant doses of bisphenol A or estradiol increases prostate gland susceptibility to adult-onset precancerous lesions and hormonal carcinogenesis and indicates that low-dose exposures to ubiquitous environmental estrogens affect the prostate epigenome during development and, in so doing, promote prostate disease with aging.
Bisphenol S Disrupts Estradiol-Induced Nongenomic Signaling in a Rat Pituitary Cell Line: Effects on Cell Functions
TLDR
BPS, once considered a safe substitute for BPA, disrupts membrane-initiated E2-induced cell signaling, leading to altered cell proliferation, cell death, and PRL release.
Bisphenol A promotes human prostate stem-progenitor cell self-renewal and increases in vivo carcinogenesis in human prostate epithelium.
TLDR
It is demonstrated that human prostate stem-progenitor cells are direct BPA targets and that developmental exposure to BPA at low doses increases hormone-dependent cancer risk in the human prostate epithelium.
Review: Endocrine disrupting chemicals and immune responses: a focus on bisphenol-A and its potential mechanisms.
Non-Monotonic Dose Responses in Studies of Endocrine Disrupting Chemicals: Bisphenol a as a Case Study
  • L. Vandenberg
  • Biology
    Dose-response : a publication of International Hormesis Society
  • 2014
TLDR
Strong evidence is provided for NMDRCs in the EDC literature, specifically for BPA, and the current risk assessment practice where ‘safe’ low doses are predicted from high dose exposures is questioned.
...
...