Bisphenol A: What Lies Beneath Its Induced Diabetes and the Epigenetic Modulation?

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Bisphenol A: What Lies Beneath Its Induced Diabetes and the Epigenetic Modulation? Publisher Pubmed

Rahmani S¹ ; Pour Khalili N^{1, 2} ; Khan F¹ ; Hassani S¹ ; Ghafourboroujerdi E³ ; Abdollahi M^{1, 3}

Show Affiliations

1. Toxicology and Diseases Group, The Institute of Pharmaceutical Sciences (TIPS), Tehran University of Medical Sciences (TUMS), Tehran, Iran
2. Center for Cell Pathology Research, Department of Biological Sciences, Khazar University, Baku, Azerbaijan
3. Department of Toxicology and Pharmacology, Faculty of Pharmacy, Tehran University of Medical Sciences (TUMS), Tehran, Iran

Source: Life Sciences Published:2018

Abstract

Nowadays, endocrine disrupting chemical pollution has become one of the major concerns due to the potential role of these chemicals in provoking endocrine disorders especially type 2 diabetes. As a widespread endocrine disrupting chemical, Bisphenol A, with modest estrogenic activity can exert its detrimental effects in the different organs involved in type 2 diabetes such as pancreas, liver, adipocyte and skeletal muscles. Obesity, hepatic steatosis, impaired insulin signaling and pancreatic islet function could be the main results of Bisphenol A exposure. Epigenetic dysregulations can be suggested as an important underlying mechanism for Bisphenol A toxicity in the endocrine system. The most studied genes in this respect, which are responsible for glucose homeostasis include Pdx1, Gck, Igf2, Srebf1 and Srebf2. Aberrant DNA methylation, histone demethylation and deacetylation and impaired miRNAs result in epigenetically dysfunctional genes that finally distract the normal glucose regulation. The present study aimed to summarize the general effects of prenatal and postnatal Bisphenol A exposure on glucose metabolism focusing on animal studies and review the recent investigations on Bisphenol A -induced epigenetic perturbations that affect the normal glucose and lipid homeostasis and lead to type 2 diabetes. © 2018 Elsevier Inc.

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Style	Citing Format
MLA	Rahmani S, et al.. "Bisphenol A: What Lies Beneath Its Induced Diabetes and the Epigenetic Modulation?." Life Sciences, vol. 214, no. , 2018, pp. 136-144.
APA	Rahmani S, Pour Khalili N, Khan F, Hassani S, Ghafourboroujerdi E, Abdollahi M (2018). Bisphenol A: What Lies Beneath Its Induced Diabetes and the Epigenetic Modulation?. Life Sciences, 214(), 136-144.
Chicago	Rahmani S, Pour Khalili N, Khan F, Hassani S, Ghafourboroujerdi E, Abdollahi M. "Bisphenol A: What Lies Beneath Its Induced Diabetes and the Epigenetic Modulation?." Life Sciences 214, no. (2018): 136-144.
Harvard	Rahmani S et al. (2018) 'Bisphenol A: What Lies Beneath Its Induced Diabetes and the Epigenetic Modulation?', Life Sciences, 214(), pp. 136-144.
Vancouver	Rahmani S, Pour Khalili N, Khan F, Hassani S, Ghafourboroujerdi E, Abdollahi M. Bisphenol A: What Lies Beneath Its Induced Diabetes and the Epigenetic Modulation?. Life Sciences. 2018;214():136-144.
BibTex	@article{ author = {Rahmani S and Pour Khalili N and Khan F and Hassani S and Ghafourboroujerdi E and Abdollahi M}, title = {Bisphenol A: What Lies Beneath Its Induced Diabetes and the Epigenetic Modulation?}, journal = {Life Sciences}, volume = {214}, number = {}, pages = {136-144}, year = {2018} }
RIS	TY - JOUR AU - Rahmani S AU - Pour Khalili N AU - Khan F AU - Hassani S AU - Ghafourboroujerdi E AU - Abdollahi M TI - Bisphenol A: What Lies Beneath Its Induced Diabetes and the Epigenetic Modulation? JO - Life Sciences VL - 214 IS - SP - 136 EP - 144 PY - 2018 ER -

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