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National Institute of Environmental Health Sciences

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Your Environment. Your Health.

Publication Detail

Title: Low-level arsenic causes proteotoxic stress and not oxidative stress.

Authors: Dodson, Matthew; de la Vega, Montserrat Rojo; Harder, Bryan; Castro-Portuguez, Raul; Rodrigues, Silvia D; Wong, Pak Kin; Chapman, Eli; Zhang, Donna D

Published In Toxicol Appl Pharmacol, (2018 Feb 15)

Abstract: Prolonged exposure to arsenic has been shown to increase the risk of developing a number of diseases, including cancer and type II diabetes. Arsenic is present throughout the environment in its inorganic forms, and the level of exposure varies greatly by geographical location. The current recommended maximum level of arsenic exposure by the EPA is 10μg/L, but levels>50-1000μg/L have been detected in some parts of Asia, the Middle East, and the Southwestern United States. One of the most important steps in developing treatment options for arsenic-linked pathologies is to understand the cellular pathways affected by low levels of arsenic. Here, we show that acute exposure to non-lethal, low-level arsenite, an environmentally relevant arsenical, inhibits the autophagy pathway. Furthermore, arsenite-induced autophagy inhibition initiates a transient, but moderate ER stress response. Significantly, low-level arsenite exposure does not exhibit an increase in oxidative stress. These findings indicate that compromised autophagy, and not enhanced oxidative stress occurs early during arsenite exposure, and that restoring the autophagy pathway and proper proteostasis could be a viable option for treating arsenic-linked diseases. As such, our study challenges the existing paradigm that oxidative stress is the main underlying cause of pathologies associated with environmental arsenic exposure.

PubMed ID: 29408041 Exiting the NIEHS site

MeSH Terms: Animals; Arsenic/administration & dosage; Arsenic/toxicity*; Autophagy/drug effects*; Autophagy/physiology; Cell Survival/drug effects; Cell Survival/physiology; HEK293 Cells; HeLa Cells; Humans; Mice; NIH 3T3 Cells; Oxidative Stress/drug effects*; Oxidative Stress/physiology; Reactive Oxygen Species/metabolism

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