L-Ascorbic Acid 2-Phosphate Attenuates Methylmercury-Induced Apoptosis by Inhibiting Reactive Oxygen Species Accumulation and DNA Damage in Human SH-SY5Y Cells

Methylmercury (MeHg) is a toxin that causes severe neuronal oxidative damage. As vitamin C is an antioxidant well-known to protect neurons from oxidative damage, our goal was to elucidate its protective mechanism against MeHg-induced oxidative stress in human neuroblastomas (SHSY5Y). We treated cell...

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Autores principales: Zuo, Kuiyang, Xu, Qi, Wang, Yujie, Sui, Yutong, Niu, Ye, Liu, Zinan, Liu, Mingsheng, Liu, Xinpeng, Liu, Dan, Sun, Wei, Wang, Ziyu, Liu, Xiaomei, Liu, Jinyu
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2023
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9967424/
https://www.ncbi.nlm.nih.gov/pubmed/36851019
http://dx.doi.org/10.3390/toxics11020144
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author Zuo, Kuiyang
Xu, Qi
Wang, Yujie
Sui, Yutong
Niu, Ye
Liu, Zinan
Liu, Mingsheng
Liu, Xinpeng
Liu, Dan
Sun, Wei
Wang, Ziyu
Liu, Xiaomei
Liu, Jinyu
author_facet Zuo, Kuiyang
Xu, Qi
Wang, Yujie
Sui, Yutong
Niu, Ye
Liu, Zinan
Liu, Mingsheng
Liu, Xinpeng
Liu, Dan
Sun, Wei
Wang, Ziyu
Liu, Xiaomei
Liu, Jinyu
author_sort Zuo, Kuiyang
collection PubMed
description Methylmercury (MeHg) is a toxin that causes severe neuronal oxidative damage. As vitamin C is an antioxidant well-known to protect neurons from oxidative damage, our goal was to elucidate its protective mechanism against MeHg-induced oxidative stress in human neuroblastomas (SHSY5Y). We treated cells with MeHg, L-ascorbic acid 2-phosphate (AA2P), or both, and used MTT, flow cytometry, and Western blot analyses to assess cell damage. We found that MeHg significantly decreased the survival rate of SH-SY5Y cells in a time- and dose-dependent manner, increased apoptosis, downregulated PAR and PARP1 expression, and upregulated AIF, Cyto C, and cleaved Caspase-3 expression. A time course study showed that MeHg increased reactive oxygen species (ROS) accumulation; enhanced apoptosis; increased DNA damage; upregulated expression ofγH2A.X, KU70, 67 and 57 kDa AIF, CytoC, and cleaved Caspase-3; and downregulated expression of 116 kDa PARP1, PAR, BRAC1, and Rad51. Supplementation with AA2P significantly increased cell viability and decreased intrinsic ROS accumulation. It also reduced ROS accumulation in cells treated with MeHg and decreased MeHg-induced apoptosis. Furthermore, AA2P conversely regulated gene expression compared to MeHg. Collectively, we demonstrate that AA2P attenuates MeHg-induced apoptosis by alleviating ROS-mediated DNA damage and is a potential treatment for MeHg neurotoxicity.
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spelling pubmed-99674242023-02-27 L-Ascorbic Acid 2-Phosphate Attenuates Methylmercury-Induced Apoptosis by Inhibiting Reactive Oxygen Species Accumulation and DNA Damage in Human SH-SY5Y Cells Zuo, Kuiyang Xu, Qi Wang, Yujie Sui, Yutong Niu, Ye Liu, Zinan Liu, Mingsheng Liu, Xinpeng Liu, Dan Sun, Wei Wang, Ziyu Liu, Xiaomei Liu, Jinyu Toxics Article Methylmercury (MeHg) is a toxin that causes severe neuronal oxidative damage. As vitamin C is an antioxidant well-known to protect neurons from oxidative damage, our goal was to elucidate its protective mechanism against MeHg-induced oxidative stress in human neuroblastomas (SHSY5Y). We treated cells with MeHg, L-ascorbic acid 2-phosphate (AA2P), or both, and used MTT, flow cytometry, and Western blot analyses to assess cell damage. We found that MeHg significantly decreased the survival rate of SH-SY5Y cells in a time- and dose-dependent manner, increased apoptosis, downregulated PAR and PARP1 expression, and upregulated AIF, Cyto C, and cleaved Caspase-3 expression. A time course study showed that MeHg increased reactive oxygen species (ROS) accumulation; enhanced apoptosis; increased DNA damage; upregulated expression ofγH2A.X, KU70, 67 and 57 kDa AIF, CytoC, and cleaved Caspase-3; and downregulated expression of 116 kDa PARP1, PAR, BRAC1, and Rad51. Supplementation with AA2P significantly increased cell viability and decreased intrinsic ROS accumulation. It also reduced ROS accumulation in cells treated with MeHg and decreased MeHg-induced apoptosis. Furthermore, AA2P conversely regulated gene expression compared to MeHg. Collectively, we demonstrate that AA2P attenuates MeHg-induced apoptosis by alleviating ROS-mediated DNA damage and is a potential treatment for MeHg neurotoxicity. MDPI 2023-02-02 /pmc/articles/PMC9967424/ /pubmed/36851019 http://dx.doi.org/10.3390/toxics11020144 Text en © 2023 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Zuo, Kuiyang
Xu, Qi
Wang, Yujie
Sui, Yutong
Niu, Ye
Liu, Zinan
Liu, Mingsheng
Liu, Xinpeng
Liu, Dan
Sun, Wei
Wang, Ziyu
Liu, Xiaomei
Liu, Jinyu
L-Ascorbic Acid 2-Phosphate Attenuates Methylmercury-Induced Apoptosis by Inhibiting Reactive Oxygen Species Accumulation and DNA Damage in Human SH-SY5Y Cells
title L-Ascorbic Acid 2-Phosphate Attenuates Methylmercury-Induced Apoptosis by Inhibiting Reactive Oxygen Species Accumulation and DNA Damage in Human SH-SY5Y Cells
title_full L-Ascorbic Acid 2-Phosphate Attenuates Methylmercury-Induced Apoptosis by Inhibiting Reactive Oxygen Species Accumulation and DNA Damage in Human SH-SY5Y Cells
title_fullStr L-Ascorbic Acid 2-Phosphate Attenuates Methylmercury-Induced Apoptosis by Inhibiting Reactive Oxygen Species Accumulation and DNA Damage in Human SH-SY5Y Cells
title_full_unstemmed L-Ascorbic Acid 2-Phosphate Attenuates Methylmercury-Induced Apoptosis by Inhibiting Reactive Oxygen Species Accumulation and DNA Damage in Human SH-SY5Y Cells
title_short L-Ascorbic Acid 2-Phosphate Attenuates Methylmercury-Induced Apoptosis by Inhibiting Reactive Oxygen Species Accumulation and DNA Damage in Human SH-SY5Y Cells
title_sort l-ascorbic acid 2-phosphate attenuates methylmercury-induced apoptosis by inhibiting reactive oxygen species accumulation and dna damage in human sh-sy5y cells
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9967424/
https://www.ncbi.nlm.nih.gov/pubmed/36851019
http://dx.doi.org/10.3390/toxics11020144
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