Sodium arsenite induces ROS-dependent autophagic cell death in pancreatic β-cells

•Sodium arsenite increased autophagosome formation in INS-1 cells.•Sodium arsenite induced autophagic cell death in INS-1 cells.•Intracellular ROS played a vital role in the arsenite-induced autophagic cell death. Inorganic arsenic is a worldwide environmental pollutant. Inorganic arsenic’s positive...

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Veröffentlicht in:	Food and chemical toxicology 2014-08, Vol.70, p.144-150
Hauptverfasser:	Zhu, Xue-Xin, Yao, Xiao-Feng, Jiang, Li-Ping, Geng, Cheng-Yan, Zhong, Lai-Fu, Yang, Guang, Zheng, Bai-Lu, Sun, Xian-Ce
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Sprache:	eng
Schlagworte:	Animals Arsenites - toxicity Autophagy Autophagy - drug effects Biological and medical sciences Cell Line Cell Survival - drug effects Chemical and industrial products toxicology. Toxic occupational diseases Diabetes Mellitus, Type 2 - chemically induced Diabetes Mellitus, Type 2 - pathology Food toxicology INS-1 cell Insulin-Secreting Cells - drug effects Medical sciences Metals and various inorganic compounds Rats Reactive oxygen species Reactive Oxygen Species - metabolism Sodium arsenite Sodium Compounds - toxicity Toxicology
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description	•Sodium arsenite increased autophagosome formation in INS-1 cells.•Sodium arsenite induced autophagic cell death in INS-1 cells.•Intracellular ROS played a vital role in the arsenite-induced autophagic cell death. Inorganic arsenic is a worldwide environmental pollutant. Inorganic arsenic’s positive relationship with the incidence of type 2 diabetes mellitus arouses concerns associated with its etiology in diabetes among the general human population. In this study, the inhibitor of autophagosome formation, 3-methyladenine, protected the cells against sodium arsenite cytotoxicity, and the autophagy stimulator rapamycin further decreased the cell viability of sodium arsenite-treated INS-1 cells. These finding suggested the hypothesis that autophagic cell death contributed to sodium arsenite-induced cytotoxicity in INS-1 cells. Sodium arsenite increased the autophagosome-positive puncta in INS-1 cells observed under a fluorescence microscope, and this effect was confirmed by the elevated LC3-II levels detected through Western blot. The LC3 turnover assay indicated that the accumulation of autophagosomes in the arsenite-treated INS-1 cells was due to increased formation rather than impaired degradation. The pretreatment of INS-1 cells with the ROS inhibitor NAC reduced autophagosome formation and reversed the sodium arsenite cytotoxicity, indicating that sodium arsenite-induced autophagic cell death was ROS-dependent. In summary, the precise molecular mechanisms through which arsenic is related to diabetes have not been completely elucidated, but the ROS-dependent autophagic cell death of pancreatic β-cells described in this study may help to elucidate the underlying mechanism.
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Inorganic arsenic is a worldwide environmental pollutant. Inorganic arsenic’s positive relationship with the incidence of type 2 diabetes mellitus arouses concerns associated with its etiology in diabetes among the general human population. In this study, the inhibitor of autophagosome formation, 3-methyladenine, protected the cells against sodium arsenite cytotoxicity, and the autophagy stimulator rapamycin further decreased the cell viability of sodium arsenite-treated INS-1 cells. These finding suggested the hypothesis that autophagic cell death contributed to sodium arsenite-induced cytotoxicity in INS-1 cells. Sodium arsenite increased the autophagosome-positive puncta in INS-1 cells observed under a fluorescence microscope, and this effect was confirmed by the elevated LC3-II levels detected through Western blot. The LC3 turnover assay indicated that the accumulation of autophagosomes in the arsenite-treated INS-1 cells was due to increased formation rather than impaired degradation. The pretreatment of INS-1 cells with the ROS inhibitor NAC reduced autophagosome formation and reversed the sodium arsenite cytotoxicity, indicating that sodium arsenite-induced autophagic cell death was ROS-dependent. 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The LC3 turnover assay indicated that the accumulation of autophagosomes in the arsenite-treated INS-1 cells was due to increased formation rather than impaired degradation. The pretreatment of INS-1 cells with the ROS inhibitor NAC reduced autophagosome formation and reversed the sodium arsenite cytotoxicity, indicating that sodium arsenite-induced autophagic cell death was ROS-dependent. In summary, the precise molecular mechanisms through which arsenic is related to diabetes have not been completely elucidated, but the ROS-dependent autophagic cell death of pancreatic β-cells described in this study may help to elucidate the underlying mechanism.</description><subject>Animals</subject><subject>Arsenites - toxicity</subject><subject>Autophagy</subject><subject>Autophagy - drug effects</subject><subject>Biological and medical sciences</subject><subject>Cell Line</subject><subject>Cell Survival - drug effects</subject><subject>Chemical and industrial products toxicology. 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Inorganic arsenic is a worldwide environmental pollutant. Inorganic arsenic’s positive relationship with the incidence of type 2 diabetes mellitus arouses concerns associated with its etiology in diabetes among the general human population. In this study, the inhibitor of autophagosome formation, 3-methyladenine, protected the cells against sodium arsenite cytotoxicity, and the autophagy stimulator rapamycin further decreased the cell viability of sodium arsenite-treated INS-1 cells. These finding suggested the hypothesis that autophagic cell death contributed to sodium arsenite-induced cytotoxicity in INS-1 cells. Sodium arsenite increased the autophagosome-positive puncta in INS-1 cells observed under a fluorescence microscope, and this effect was confirmed by the elevated LC3-II levels detected through Western blot. The LC3 turnover assay indicated that the accumulation of autophagosomes in the arsenite-treated INS-1 cells was due to increased formation rather than impaired degradation. The pretreatment of INS-1 cells with the ROS inhibitor NAC reduced autophagosome formation and reversed the sodium arsenite cytotoxicity, indicating that sodium arsenite-induced autophagic cell death was ROS-dependent. In summary, the precise molecular mechanisms through which arsenic is related to diabetes have not been completely elucidated, but the ROS-dependent autophagic cell death of pancreatic β-cells described in this study may help to elucidate the underlying mechanism.</abstract><cop>Oxford</cop><pub>Elsevier Ltd</pub><pmid>24859355</pmid><doi>10.1016/j.fct.2014.05.006</doi><tpages>7</tpages></addata></record>
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subjects	Animals Arsenites - toxicity Autophagy Autophagy - drug effects Biological and medical sciences Cell Line Cell Survival - drug effects Chemical and industrial products toxicology. Toxic occupational diseases Diabetes Mellitus, Type 2 - chemically induced Diabetes Mellitus, Type 2 - pathology Food toxicology INS-1 cell Insulin-Secreting Cells - drug effects Medical sciences Metals and various inorganic compounds Rats Reactive oxygen species Reactive Oxygen Species - metabolism Sodium arsenite Sodium Compounds - toxicity Toxicology
title	Sodium arsenite induces ROS-dependent autophagic cell death in pancreatic β-cells
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