Impact of Acrylamide on Cellular Senescence Response and Cell Cycle Distribution via an In-vitro Study

Exposure to certain environmental toxins has been shown to be associated with cellular senescence mainly through induction of oxidative stress and impact on cellular systems. Acrylamide (ACR) has raised worldwide concerns regarding the high risk of human dietary exposure to its hazardous effect. Alt...

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Published in:Iranian journal of pharmaceutical research : IJPR 2021-01, Vol.20 (4), p.165-177
Main Authors: Mahdizade, Elahe, Baeeri, Maryam, Hodjat, Mahshid, Rahimifard, Mahban, Navaei-Nigjeh, Mona, Haghi-Aminjan, Hamed, Moeini-Nodeh, Shermineh, Hassani, Shokoufeh, Dehghan, Gholamreza, Hosseinpour-Feizi, Mohammad Ali, Abdollahi, Mohammad
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container_title Iranian journal of pharmaceutical research : IJPR
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creator Mahdizade, Elahe
Baeeri, Maryam
Hodjat, Mahshid
Rahimifard, Mahban
Navaei-Nigjeh, Mona
Haghi-Aminjan, Hamed
Moeini-Nodeh, Shermineh
Hassani, Shokoufeh
Dehghan, Gholamreza
Hosseinpour-Feizi, Mohammad Ali
Abdollahi, Mohammad
description Exposure to certain environmental toxins has been shown to be associated with cellular senescence mainly through induction of oxidative stress and impact on cellular systems. Acrylamide (ACR) has raised worldwide concerns regarding the high risk of human dietary exposure to its hazardous effect. Although there is ample evidence about the carcinogenicity of ACR, limited studies have focused on its impact on cellular aging. The levels of β-galactosidase (SA-β-gal) activity, cell cycle distribution, and the expression of the senescence-associated gene and inflammatory markers were evaluated following exposure of embryonic fibroblast cells to ACR. A significant elevation in SA-β-gal activity after exposure to different concentrations of ACR was accompanied by a considerably increased level of reactive oxygen species and lipid peroxidation. ACR-treated cells showed a noticeable decline in the total antioxidant capacity and thiol molecules. Moreover, the expression of cellular senescence-related genes including p38, p53, and p21 significantly upregulated at the high concentration of 5 mM ACR. ACR also induced G0/G1 phase arrest in embryonic fibroblast cells. The current study results revealed that exposure to ACR could enhance senescence response, contributing to increased oxidative stress and cellular damage.
doi_str_mv 10.22037/ijpr.2021.115117.15206
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title Impact of Acrylamide on Cellular Senescence Response and Cell Cycle Distribution via an In-vitro Study
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